JP6154530B1 - Bed slip prevention mat - Google Patents

Abstract

An object of the present invention is to provide a floor slip prevention mat with low noise, excellent body pressure dispersibility, and low installation and operation costs. SOLUTION: A plurality of air cells 4 comprising a plurality of air cells 4 made of an elastic body having a hollow body structure, and a plurality of air cell systems comprising communication pipes 2 arranged in a staggered manner for supplying and exhausting air to and from the air cells. The cell system is a floor slip prevention mat including an air control unit 3 for supplying and exhausting air to and from the air cell via the communication pipe, and a plurality of air cells made of an elastic body having a hollow body structure are arranged in parallel in a plane direction. The air control unit is configured as an air cell group, and the air control unit includes an electromagnetic valve 34 for supplying and exhausting the compressor and the air cell system at a predetermined timing, and an electromagnetic valve control unit 31 for controlling the electromagnetic valve. Means for arbitrarily setting the total amount of air in a state of communication, and all or a part of the arbitrarily set amount of air set by the means from one air cell group to the other air cell group Means to transport It is a bedsore prevention mat that was taken. [Selection] Figure 1

Description

  The present invention relates to a mat for preventing bedsores such as sick people used as medical equipment and health equipment.

  Sick and elderly people who need long-term treatment on the bed are suffering from bedsores because their bodies cannot move freely. Bed slippage occurs because specific parts such as the back and lower back of the body are compressed for a long time, resulting in poor blood circulation.

  In order to prevent bed slipping, it is effective to move a portion that is heavy, such as turning over occasionally. However, it is difficult for seriously ill people and bedridden elderly people to turn over on their own, so it is necessary to assist this to prevent bedsores. In order to prevent bedsores, it is necessary to constantly change the fulcrum of the body, disperse the body pressure so that the body pressure due to weight does not concentrate on one point, and always change the position of the fulcrum to disperse the body pressure There have been proposed floor slip prevention mats (Patent Documents 1 to 4).

  In Patent Document 1, support rods that support the back and waist of a sick person are arranged on an indicator plate of a floor slip prevention device in a lattice shape or a staggered manner, and adjacent support rods or adjacent row or row support rods. Is disclosed that alternately lifts and lowers at predetermined intervals.

  Patent Document 2 discloses a mat sheet provided with a large number of convex shell portions having one side opening, and exhausted by an air cell in which the mat sheets having different shapes of the convex shell portions are integrally molded from above and below by a molding material. A floor slip prevention mat using a so-called waisted air cell that does not deform even at times is disclosed.

  In Patent Document 3, a non-expansion / contraction zone made of a foam material is disposed around an expansion / contraction zone provided with a large number of air cells connected to a pump, and the expansion / contraction zone extends in the vertical direction of the mat. A floor slip prevention mat in which the area in the vertical direction of the expansion / contraction zone of the foam material is changed so as to be disposed at a biased position is disclosed.

  In Patent Document 4, a motor and a reduction device that decelerates the output of the motor in a cell main body, a unit area (cell) in which the space between the upper surface portion and the lower surface portion of the bed is partitioned in a lattice shape, A rotation / linear motion converter that converts rotational motion into linear motion; a load holding body connected to the output shaft of the rotation / linear motion converter; a load detection unit that detects a load applied to the load holding body; The cell drive body is configured as a single unit, arranged so that each drive cell body can be pulled out independently when a bed is in use and a person is not lying down, and each load is detected. There is disclosed a floor slip prevention device provided with a control device that inputs a load from a section and performs drive control of each motor according to a built-in predetermined floor slip prevention mode.

Japanese Patent Laid-Open No. 2004-024652 JP-A-2005-000354 JP-A-2005-118130 JP 2005-176895 A

  Since the present invention has low noise and excellent body pressure dispersibility, it can satisfy the feeling of use of users such as seriously ill and bedridden elderly (hereinafter referred to as “users”), and the cost of installation and operation is low. It is to provide a floor slip prevention mat that can be easily installed.

  As a result of intensive research, the present inventors provide a bed slip prevention mat that can be installed in an existing bed and combines a plurality of air cells made of an elastic body having a hollow body structure, thereby solving the above problem. It came to. Specifically, it can be solved by the following modes.

A plurality of air cells made of an elastic body having a hollow body structure, and a plurality of air cell systems consisting of communication pipes arranged in a staggered manner for supplying and exhausting air to and from the air cells,
A floor slip prevention mat provided with an air control unit for supplying and exhausting air to the air cell via the communication pipe in the air cell system,
A plurality of air cells made of an elastic body of the hollow body structure are configured as a group of air cells arranged in parallel in a plane direction,
The air control unit comprises a compressor, an electromagnetic valve for supplying and exhausting air at a predetermined timing to an air cell system, and an electromagnetic valve control unit for controlling the electromagnetic valve,
With the air cell group in communication, the means for arbitrarily setting the total air amount and the total air amount set by the means or a part of the air amount to be arbitrarily set are transferred from one air cell group to the other. Means for transporting to the air cell group is provided.

The air cell is formed of an elastic body with a hollow structure, and there is almost no expansion or contraction of the air cell when air is supplied or exhausted, and the air cell softly hits the user's heel and the usability is improved. By arranging the air cells in a staggered manner, the pressurized and depressurized air cells are arranged alternately in the vertical and horizontal directions, so that the air cell softly hits the user's bag and the feeling of use is improved. Furthermore, by adjusting the total air amount, it becomes possible to adjust the softness of the cushion of the entire floor slip prevention mat, and it is possible to satisfy most of the user's demands.
Furthermore, since the air supply to the air cell system can be performed not only from the air supply from the compressor, but also from the other air cell system, the operation of the compressor can be shortened and noise can be reduced. . In addition, since all the air filled in the air cell of other air cell system is not discharged, the air cell is less contracted, so the feeling of use is improved,
Since the cell that hits the user's bag is controlled only by air supply and exhaust, there is no need to install a motor, motor output speed reducer, rotation / linear motion converter, etc. in the cell, so noise and maintenance costs can be reduced.

  (Aspect 2) The floor slip prevention mat according to either (Aspect 1) or (Aspect 2), wherein a plurality of air cells made of an elastic body having a hollow body structure are arranged in a coil spring. This is because when the air cell is not operated or when the air cell cannot be operated, such as at the time of a power failure, it can be used as a normal mat only by the coil spring provided in the bed slip prevention mat.

  (Aspect 3) The shape of an air cell made of an elastic body having a hollow body structure is either a spiral structure or a shape provided with a hollow hole penetrating the side surface of the air cell (Aspect 1). A bed slip prevention mat described in any one of (Aspect 3). This is because by making the hollow elastic body into a spiral structure, in addition to the deformation of the elastic body itself, the deformation of the spiral structure has a synergistic effect on the cushioning property, and the feeling of use of the bed slip prevention mat is enhanced. Similarly, in the shape provided with the hollow hole penetrating the side surface of the air cell, in addition to the deformation of the elastic body itself, the deformation of the hollow hole penetrating has a synergistic effect on the cushioning property, and the feeling of use of the floor slip prevention mat. This is because it increases.

  (Aspect 4) An air cell made of an elastic body having a hollow body structure is configured by enclosing an elastic body with a structure having a spring function. (Aspect 1) to (Aspect 4) It is a floor slip prevention mat described in any one of them. In order to eliminate the feeling of bottoming of the mat and to have a minimum cushioning property even in the event of a power failure. This is because the cushioning property is improved and the feeling of use is enhanced by using an air cell made of an elastic body having a hollow body structure in which an elastic body includes a structure having a spring function.

By arranging the air cells in a staggered manner, the air cells whose pressure has been increased or decreased are arranged alternately in the vertical and horizontal directions, and the total amount of air can be adjusted. Can be satisfied.
In addition, the air cell is formed of a hollow elastic body, and there is almost no expansion or contraction of the air cell when air is supplied or exhausted, and the air cell softly hits the user's heel and the feeling of use is improved. . Furthermore, because the cell that hits the user's bag is controlled only by air supply and exhaust, there is no need to install a motor, motor output speed reducer, rotary / linear motion converter, etc. in the cell, reducing noise and maintenance costs. it can.
Since air supply to the air cell system can be performed not only by air supply from the compressor but also by air supply from other air cell systems, the operation of the compressor can be shortened and noise can be reduced. Further, since all the air filled in the air cells of other air cell systems is not discharged, the air cell is less contracted, and the feeling of use is improved.
By making the elastic body of the hollow structure into a spiral structure, in addition to the deformation of the elastic body itself, the deformation of the spiral structure has a synergistic effect on the cushioning property, and the feeling of use of the bed slip prevention mat is enhanced. Similarly, in the shape provided with the hollow hole penetrating the side surface of the air cell, in addition to the deformation of the elastic body itself, the deformation of the hollow hole penetrating has a synergistic effect on the cushioning property, and the feeling of use of the floor slip prevention mat. Will increase.

It is a side view which shows the basic composition of the floor slip prevention mat of this invention. It is explanatory drawing of the coil spring which arrange | positioned the air cell which is a component of the floor slip prevention mat of this invention. It is a schematic diagram which shows the typical form of the air cell which is a component of the floor slip prevention mat of this invention. It is a schematic diagram which shows the effect | action of the air cell of the spiral tubular form which is a component of the floor slip prevention mat of this invention. It is a schematic diagram which shows arrangement | positioning in the floor slip prevention mat of the communicating pipe which is a component of the floor slip prevention mat of this invention. It is a schematic diagram which shows the structure of the connection part with the air cell of the communicating pipe which is a component of the floor slip prevention mat of this invention. It is a schematic diagram which shows the basic composition of the air control 2 line of the floor slip prevention mat of this invention. It is the schematic diagram 1 which shows the operation | movement flow in the 1st embodiment of the air control 2 line of the floor slip prevention mat of this invention. It is a schematic diagram which shows the operation | movement flow in the 2nd embodiment of the air control 2 line of the floor slip prevention mat of this invention. It is a schematic diagram which shows the operation | movement flow in the 3rd embodiment of the air control 2 line of the floor slip prevention mat of this invention.

  A mode for carrying out the present invention will be described below with reference to the drawings. In addition, what is necessary is just to provide the said characteristic (aspect 1) to (aspect 5) of this invention, and it is not limited to embodiment.

  FIG. 1 is a side view showing the basic configuration of the floor slip prevention mat of the present invention. The floor slip prevention mat 1 includes a floor slip prevention mat body 6 in which a plurality of air cells 4 are arranged in parallel in a plane direction, an air control unit 3 for supplying and exhausting air to and from the air cells 4, and a communication pipe 2. Yes. The bed slip prevention mat body 6 is placed on the gantry 5. However, the floor slip prevention mat body 6 does not necessarily have to be placed on the gantry 5.

  FIG. 2 is an explanatory diagram schematically illustrating a coil spring-disposed air cell 42 in which the air cell 4 which is a component of the floor slip prevention mat 1 of the present invention is disposed on the coil spring 41. By incorporating the air cell 4 of the present invention into a coil spring 41 of a bed mat used as a bedding, a coil spring-disposed air cell 42 can be obtained. By this mode, when the floor slip prevention function is not exhibited, it can be used as a normal bed mat, and even when the operation of the air cell must be stopped during a power failure, etc. Since the function can be fulfilled, the burden on the user can be reduced.

  The air cell 4 of the present invention is formed of a hollow elastic body. The hollow structure is used to hold the air supplied and exhausted from the air control unit 3 in the hollow structure, and the material is an elastic body because it is deformed flexibly with respect to the pneumatic load and unloads. This is because the material needs to be easily restored later.

  Examples of the elastic material include a rubber-based material and a thermoplastic elastomer. The rubber materials include natural rubber, diene rubber, and non-diene rubber. As the diene rubber, styrene butadiene rubber is advantageous in that it has excellent wear resistance and aging resistance. It is suitable in that it is excellent in elasticity and wear resistance. Among non-diene rubbers, butyl rubber is preferable in terms of weather resistance and chemical resistance, and urethane rubber is preferable in terms of high mechanical strength. Thermoplastic elastomers are suitable because they have flexibility and elastic recoverability of rubber and have thermoplasticity, so that they are easy to process and recyclable. Thermoplastic elastomers include vinyl chloride, styrene, olefin, ester, and urethane. Among these, styrene-based thermoplastic elastomers are preferable in that they have characteristics close to those of vulcanized rubber, have high elasticity, have a tight feel, and are excellent in wear resistance. Olefin-based thermoplastic elastomers are advantageous in that they are not easily deteriorated and are excellent in flexibility and moldability.

About the form of the air cell 4, the typical form (type I-V) is shown in FIG. Forms include a spherical shape such as an egg shape (type I) and a pear shape (types II and III), and a spiral tubular shape (types IV and V). There is a form in which a hole 12 penetrating through is provided (types I and III).
Further, as shown in FIG. 4, in the spiral annular type (types IV and V), the compression of the spiral space portion a has a soft feeling of use, and the compression b of the tubular portion is based on the characteristics of air pressure and hollow structure elastic body. The body pressure can be dispersed by supporting the user's heel by the internal pressure of the tube, thereby preventing the heel from sinking and obtaining a hard feeling based on the effect of eliminating the bottoming. It is characteristic that Since it is not necessary to provide a special control mechanism due to the two-stage cushion effect, the structure of the floor slip prevention mat can be simplified and the cost can be reduced. In the form (types I and III) in which the hole 12 penetrating the side surface is provided in the air cell main body 11, the same two-stage cushioning effect is produced, so that the cost can be reduced.

  The air cell 4 includes an air cell in which a structure having a spring function is made into a frame of the representative form (types I to V) shown in FIG. 3 and then covered with the elastic material described above. It is.

  FIG. 5 is a schematic view showing the arrangement of the communication pipe, which is a component of the floor slip prevention mat of the present invention, in the floor slip prevention mat, and FIG. 6 is an air cell of the communication pipe, which is a component of the floor slip prevention mat of the present invention. It is a schematic diagram which shows the structure of a connection part. The communication pipe is a resin pipe material molded in a zigzag shape, and is embedded with a flexible soft rubber material that is excellent in flexibility, and has a connection port that connects the air cell 4 at the bent portion. Yes.

FIG. 7 is a schematic diagram showing a basic configuration of two air control lines of the floor slip prevention mat of the present invention. A floor slip prevention mat body 6 and an air control unit 3 that controls air supply / exhaust through air pipes (2, 2a, 2b) to air cells (4a, 4b) disposed in the floor slip prevention mat body 6 Is done. The air control unit 3 includes a control device 31, a main compressor 32 for supplying air, a total air amount adjusting compressor 33 for adjusting the total air amount, a solenoid valve 34, a signal wiring 35, and pressure sensors (36a, 36b). The
The bed slip prevention mat body 6 constitutes an air cell system (9a, 9b) including an air cell group in which a plurality of air cells (4a, 4b) are connected to communication pipes (2a, 2b) piped in a staggered manner. To do. The subscripts a and b of the air cell system (9a and 9b) indicate air cell groups that are supplied and exhausted by the same pressure sensor (36a and 36b).

  The operation flow of the bed slip prevention mat that adjusts the total air amount, which is a feature of the present invention, by a predetermined setting and then varies the load (air pressure) for each air cell system is shown in FIGS. 8, 9, and 10. This will be described according to an aspect.

FIG. 8 is a schematic diagram showing an operation flow in the first embodiment of the air control two lines of the floor slip prevention mat of the present invention. The total air amount is 14, the air amount of the air cell system (9a, 9b) is A, B, and the air amount is changed to 8 and 6 alternately.
In <step 1> to <step 3> described below, the total air amount is adjusted to a predetermined total air amount by the total air amount adjusting compressor 33, and the softness of the cushion of the entire floor slip prevention mat is adjusted.
By opening the solenoid valve 34, the air cell system can be replenished by using both the replenishment of air from another air cell system with high pressure (eg, 9b for 9a or 9a for 9b) and external air. The air supply can be performed not only by the air supply from the compressor but also by the air supply from other air cell systems, so that the operation of the compressor can be shortened and noise can be reduced. Further, since all the air filled in the air cells of other air cell systems is not discharged, the air cell is less contracted, and the feeling of use is improved.

The following <Step 1> to <Step 4> are repeated.
<Step 1>
The solenoid valve 34 is opened, and the air pressure of the air cell system (9a, 9b) is kept constant (A: B = 7: 7). Next, the air pressure is checked by the pressure sensors (36a, 36b), and a predetermined total air amount is replenished by the total air amount adjusting compressor 33, or the electromagnetic valve 34 is released to discharge the air.
<Step 2>
The electromagnetic valve 34 is closed, and the main compressor 32 pressurizes air into the air cell system (9a) up to a predetermined air pressure (A = 8) while checking the air pressure with the pressure sensor (36a).
At this time, instead of the method of injecting air into the air cell system (9a) to a predetermined air pressure (A = 8), there is also a method of injecting air so that the air pressure difference becomes 2.
<Step 3>
The solenoid valve 34 is opened, and the air pressure of the air cell system (9a, 9b) is kept constant (A: B = 7: 7). Next, the air pressure is checked by the pressure sensors (36a, 36b), and a predetermined total air amount is replenished by the total air amount adjusting compressor 33, or the electromagnetic valve 34 is released to discharge the air.
<Step 4>
The electromagnetic valve 34 is closed, and the main compressor 32 pressurizes air into the air cell system (9b) up to a predetermined air pressure (B = 8) while checking the air pressure with the pressure sensor (36b).
At this time, instead of the method of injecting air into the air cell system (9a) to a predetermined air pressure (A = 8), there is also a method of injecting air so that the air pressure difference becomes 2.

FIG. 9 is a schematic diagram showing an operation flow in the second embodiment of the air control 2-line of the floor slip prevention mat of the present invention. An example in which the total air amount is 14, the air amounts of the air cell systems (9a, 9b) are A and B, and the air amounts are alternately changed to 10 and 4 is shown.
The operation flow is such that the air pressure of the air cell system (9a, 9b) in the schematic diagram 1 is constant (A: B = 7: 7), and the air amount of the air cell system (9a, 9b) is alternately 10 and 4. , Repeat <Step 1> to <Step 4>.
When the total amount of air is 14 and the amount of air in the air cell system (9a, 9b) is 10 and 4, respectively, the total amount of air in the schematic diagram 1 is 14, and the amount of air in the air cell system (9a, 9b) is 8 respectively. Compared with the case where the air pressure difference between 2 and 6 is 2, a sharp feeling of use can be obtained.

FIG. 10 is a schematic diagram showing an operation flow in the third embodiment of the air control 2-line of the floor slip prevention mat of the present invention. An example is shown in which the total air volume is 10, the air volume of the air cell system (9a, 9b) is A, B, and the air volume is changed to 6 and 4 alternately.
The operation flow is such that the air pressure of the air cell system (9a, 9b) in the schematic diagram 1 is constant (A: B = 5: 5), and the air amount of the air cell system (9a, 9b) is alternately 6 and 4. , <Step 1> to <Step 4> are repeated.
When the total amount of air is 10 and the amount of air in the air cell system (9a, 9b) is 6 and 4, respectively, the total amount of air in the schematic diagram 1 is 14, and the amount of air in the air cell system (9a, 9b) is 8 respectively. Compared to when the air pressure difference between 2 and 6 is 2, an overall soft feeling of use can be obtained.
Further, although not shown in the figure, the total air amount can be adjusted in the order of 14 → 10 → 14 → 10 at a predetermined timing without being fixed at a constant value.

  The bed slip prevention mat of the present invention can be configured to have three or more lines of air control. However, the principle is the same for two lines of air control, so the detailed description and drawings are omitted.

INDUSTRIAL APPLICABILITY The present invention can be used for the prevention of pressure ulcers of seriously ill people and bedridden elderly, and for the prevention of economy class syndrome in a sitting posture such as a wheelchair, an automobile driver's seat and an airplane seat.

DESCRIPTION OF SYMBOLS 1 Bed slip prevention mat 2 Communication pipe 3 Air control part 31 Control apparatus 32 Main compressor 33 Air total amount adjustment compressor 34 Solenoid valve 35 Signal wiring 36 Sensor 4 Air cell 41 Coil spring 42 Coil spring arrangement air cell 5 Base 6 Bed slip prevention mat Main body 9 Air cell system 11 Air cell main body 12 made of a hollow elastic body Hollow hole penetrating the side surface of the air cell

Claims (4)

A plurality of air cells made of an elastic body having a hollow body structure, and a plurality of air cell systems consisting of communication pipes arranged in a staggered manner for supplying and exhausting air to and from the air cells,
A floor slip prevention mat provided with an air control unit for supplying and exhausting air to the air cell via the communication pipe in the air cell system,
A plurality of air cells made of an elastic body of the hollow body structure are configured as a group of air cells arranged in parallel in a plane direction,
The air control unit comprises a compressor, an electromagnetic valve for supplying and exhausting air at a predetermined timing to an air cell system, and an electromagnetic valve control unit for controlling the electromagnetic valve,
With the air cell group in communication, the means for arbitrarily setting the total air amount and the total air amount set by the means or a part of the air amount to be arbitrarily set are transferred from one air cell group to the other. Bed slip prevention mat with means to transfer to the air cell group .
  The floor slip prevention mat according to claim 1, wherein a plurality of air cells made of an elastic body having a hollow body structure are disposed in a coil spring.   The shape of the air cell made of the elastic body having the hollow body structure is either a spiral shape or a shape provided with a hollow hole penetrating the side surface of the air cell. The floor slip prevention mat described in any of the above.   4. The air cell comprising an elastic body having a hollow body structure is configured by including a structure body having a spring function in the elastic body. Bed slip prevention mat described in the above.