JPH02307407A - Air cushion bed - Google Patents

Abstract

PURPOSE:To set an optimum form in accordance with the body shape of a person and to realize comfortable sleep by individually controlling the inflow and outflow of air to a plurality of pneumatic bellows arranged below a mattress bed. CONSTITUTION:Pneumatic bellows 5a to 5e are arranged in the form of matrix between an air passage 3 and a mattress 4. On the upper plate 8a of the pneumatic bellows 5a, an outflow port 10a is provided and on the lower plate 9a, an inflow port 11a is provided. An inflow control valve 12a and an outflow control valve 16a are respectively composed of a piezoelectric element. On turning a power off, the in outflow port 10a and the inflow port 11a are closed. On turning a power on, they are opened. Even when a person lies on the mattress 4 and load is applied thereto, air in the pneumatic bellows 5a to 5e does not flow out but supports the human body due to the increase of internal pressure. When the switches 29a to 29c of the outflow control valves 12a to 12c are turned on, the air escapes from the outflow port 10a to contract the pneumatic bellows. In order to expand the pneumatic bellows 5a to 5c, the switch of the motor 25 of a pneumatic source 6 and the switches 30a to 30c of the inflow control valves 16a to 16c are turned on.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a bed used for sleeping or resting.

Conventional technology Conventional bedding using air pressure was developed in 1983-1979.
927 is known.

In this method, the shape of the mat was changed by alternately repeating the inflow of air into the air mat and the outflow of air from the air mat.

Problems to be Solved by the Invention However, in this method, the shape of the mat changes only uniformly over the entire mat surface, so fine local shape control is not possible.

Means for Solving the Problems The present invention solves the above problems, and includes a pneumatic source,
comprising a pine tress and a plurality of pneumatic bellows disposed below the pine tress and having an inlet and an outlet;
qf inlet is connected to the air pressure source, and the outlet is connected to the atmosphere and is provided with an inflow control valve for controlling the inflow from the air pressure source, and an outflow control valve for controlling the outflow from the outlet to the atmosphere. , an air cushion bed is constructed by providing a control circuit for the inflow and outflow control valves.

Function: With the above-described configuration, the present invention individually controls the inflow and outflow of air to a plurality of pneumatic bellows arranged on the underside of the pinerest bed using a control circuit, and allows the shape of the pinerest to be arbitrarily adjusted according to the body shape of the individual. It is set up so that it looks like a vine.

Embodiments Hereinafter, embodiments of the present invention will be described based on the accompanying drawings.

In FIG. 1, 1 is an air cushion bed.

2 is a support part, 8 is an air passage panel, and 4 is a pinerest. Pneumatic bellows 5a, 5b to 5y (5f to 5y are not shown) are arranged in a matrix between the air passage 3 and the mattress 4. 6 is an air pressure source.

Since the pneumatic bellows 5a, 5b to 5-y have the same configuration, 5
This will be explained using a as an example. In FIG. 2, the pneumatic bellows 5a has a resin bellows 7a, an upper plate 8a and a lower plate 9a.
It has a structure in which it is welded to the The upper plate 8a is provided with an outlet 10a, and the lower plate 9a is provided with an inlet 11a.

12a is an outflow control valve composed of a piezoelectric element;
3a is its support portion, and 14a and 15a are lead wires.

lea is an inflow control valve composed of a piezoelectric element, and 1
7a is its support portion, and 18a and 19a are lead wires.

When the outflow control valve 12a and the inflow control valve 16a are not energized, the outflow port 10a and the inflow port 11a are respectively closed.
It is configured to close and open when energized.

In FIG. 3, the air passage panel 3 has an opening 20a.
, 20b to 20y are opened in a matrix, and all of these are connected to the supply duct 22 of the air pressure source 6 via an air passage 21.

Further, the openings 20a, 20b to 20y are the inlets 11a, 11b to the lower plates 9a, 9b to 9y (however, 9b to 9y are not shown) of the pneumatic bellows 5a, 5b-5y.
11y (however, 11b to 11y are not shown).

In addition, the outlet 10a of the pneumatic bellows 5a, 5b to 5y
, 10b to 10y (however, 10b to 10y are not shown) are open to the atmosphere.

FIG. 4 shows a control circuit 23 for the outflow control valves 12a, 12b-12y and the inflow control valves IQa, 16b-16y. 24 is an AC power source, 25 is a motor for air pressure source 6, 2
6 is the switch.

27 is a rectifier circuit, and 28 is a smoothing capacitor.

29a, 29b to 29y are respective outflow control valves 12a.
, 12b to 12y switches, 30a, 30b to 30
y are switches for the inflow control valves 16a, 16b to 16y, respectively.

Next, the operation will be described.

Figure 1 shows pneumatic bellows 5a, 5b to 5y (however, 5
f to 5y are not shown. ) shows a state in which air is pumped from the air pressure source 6. The state of the control circuit 23 at this time is as shown in FIG.
Switches 29a and 29b for energizing b to 12y
29y and the switches 3Qa, 30b-30y for energizing the inflow control valves 16a, 16b-16y are in an off state. Therefore, the pneumatic bellows 5a, 5b
5y is in a closed state internally, as shown in FIG. 2, which shows the pneumatic bellows 5a as a typical example. As a result, the pneumatic bellows 5a, 5b to 5y are
Pine Torres 4 is maintained in a flat state.

In this state, even if a person lies on the pinerest 4 and a load is applied, the pneumatic bellows 5a, 5b to 5y
The air inside does not flow out, and the increase in internal pressure supports the human body without changing the shape of the mattress 4.

Next, as shown in FIG. 5, the outflow control valve 12a.

It is assumed that only the switches 29a, 29b, and 29C of the switches 12b and 12c are turned on. At this time, for example, the pneumatic bellows 5a is in a state as shown in FIG.

That is, the outflow control valve 12a is deformed, the air inside is released through the outflow port 10a, and the height of the pneumatic bellows 5a is contracted to be lower than the original height shown in FIG. 2.

Now, if the on-times of the switches 29a, 29b, 29c of the pneumatic bellows 5a, 5bs5c are set as shown in the timing chart in FIG. It contracts due to the load on the human body, and the degree of contraction corresponds to the length of time the switches 29a129b and 29C are on. Therefore, the switches 29a, 29b, 2
When 9c returns to the OFF state after these on-times have elapsed, the outflow control valves 12a, 12b, 12c are closed, so that the pneumatic bellows 5a% 5b, 5c maintain their current positions, as shown in FIG. The settings will be as follows.

In order to extend the deflated pneumatic bellows 5a, 5b, 5C, the motor 25 of the pneumatic source 6 is switched on and the inflow control valves 16a, 16b are activated.

It is preferable to turn on the switches 30a, 30b, and 30c of 16c. The degree of expansion is controlled depending on the length of these on-times.

As shown above, the outflow control valves 12a, 12b to 12
switches 29a, 29b to 29y for energizing y;
By individually controlling the ON time of the switches 30a, 30b-30y for energizing the inflow control valves 16a, 16b-16y,
The height of y can be adjusted arbitrarily.

Next, a second embodiment will be described.

FIG. 9 shows a pneumatic bellows 5a similar to that shown in FIG. 2, but the only difference is that a bias spring 31a is disposed inside it. This spring 31a is set to act as a compression spring when a load is applied to the pneumatic bellows 5a. The other pneumatic bellows 5b to 5y have a similar configuration. The overall configuration of the bed 1 is similar to that of the first embodiment.

Next, the operation will be described.

Also in this embodiment, the outflow control valves 12a, 12b-
12y and the opening/closing control of the inflow control valves 16a, 16b--16y, the shape of the pinerest 4 can be arbitrarily set, similar to the first embodiment.

In this case, referring to FIG.
Since a contributes to supporting the load, the pneumatic bellows 5
The burden on person a is reduced accordingly.

In the above embodiments, a piezoelectric element was used as the inflow/outflow control valve, but the invention is not limited to this.
Any material that can be deformed by energization control may be used. For example, bimetal, shape memory alloy, etc. may be used.

Furthermore, although an example has been shown in which the bias spring is disposed within the pneumatic bellows, it may be disposed outside the pneumatic bellows.

Effects of the Invention In the present invention, a plurality of pneumatic bellows are arranged in a matrix to support the pinerest, so by individually controlling these bellows, a desired optimal shape can be set according to the body shape of the individual. This has the effect of providing a comfortable sleep and rest environment.

Additionally, by providing a bias spring to the pneumatic bellows, the burden on the pneumatic bellows can be reduced, and the extension and movement of the pneumatic bellows can be adjusted using a smaller capacity pneumatic source. It is something.

[Brief explanation of drawings]

Fig. 1 is a vertical sectional view of an air cushion bed showing an embodiment of the present invention, Fig. 2 is a vertical sectional view of a pneumatic bellows, Fig. 3 is a plan view of an air passage panel, and Fig. 4 is an inflow/outflow control. A control circuit diagram of the valve, Fig. 5 is a control circuit diagram showing the setting state of the switch when the shape of the pinerest is deformed, Fig. 6 is a vertical sectional view showing different operating states of the pneumatic bellows,
FIG. 7 is a timing chart showing the on/off state of the switch, FIG. 8 is a vertical sectional view showing the deformed state of the pinerest, and FIG. 9 is a vertical sectional view of the pneumatic bellows showing the second embodiment. 1...Air cushion bed, 5a, 5b-5y.
...Pneumatic bellows, 6...Pneumatic pressure source, 10a, 10
b~10y”・fM exit, lla, 1lb-11y・
...a population, 12a, 12b to 12y... outflow control valve, 16a, 16b to 16y... flow control valve, 23.
...Control circuit, 31a...Name of Bias Brink agent Patent attorney Shigetaka Awano Haka1/°-:
n arcson 1 nbesodo 4-°'my 7 tres 6a,, 5b, ! c, Sat, 5g---2
! A tail bellows ≦-2 Ki Ujitora 1st rll Fuki 2! ! I Figure 3 Figure 4 Figure 5 16a-16b 16c z3 Figure 7 Time

Claims (2)

[Claims] (1) An air pressure source, a mattress, and a plurality of pneumatic bellows disposed below the mattress and having an inlet and an outlet, the inlet being connected to the air pressure source and the outlet communicating with the atmosphere. The air cushion bed is provided with an inflow control valve that controls inflow from the air pressure source, an outflow control valve that controls outflow from the outflow port to the atmosphere, and a control circuit for the inflow and outflow control valves. (2) The air cushion bed according to claim 1, wherein the pneumatic bellows is provided with a bias spring.