JP4524489B2 - Beauty and health equipment - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to beauty and health equipment using a solenoid type electromagnetic valve device.
[0002]
[Prior art]
The air massager employs a rotary motion using a motor for the air distribution mechanism. This system has a simple mechanism and is highly reliable and can be manufactured at a relatively low cost. However, due to the constant rotational motion, it is difficult to change the air distribution motion.
[0003]
On the other hand, an air massager is required to have a change in a mode such as a massage mode, an esthetic mode, or a vibration mode with high reliability and a relatively low price.
[0004]
[Problems to be solved by the invention]
The present invention has been made in view of the above-mentioned drawbacks, and the object of the present invention is to provide a change in a mode such as a massage mode, an esthetic mode, or a vibration mode with high reliability and a relatively low price. It is to provide beauty and health equipment that can be used.
[0005]
An air compression device, a plurality of air bags, a buffer chamber for storing air from the air compression device, and the buffer chamber connects the buffer chamber and the air compression device and air from the air compression device And a conduit for supplying air from the buffer chamber to each air bag and sending air from each air bag to the buffer chamber; and a conduit for exhausting air from the buffer chamber A solenoid type solenoid valve device that is disposed in each conduit and that opens and closes for supplying and / or exhausting air; and supplying and supplying air to each air bag by opening and closing the solenoid type solenoid valve device And a control device for controlling the exhaust to control any one of the massage mode, the esthetic mode, and the vibration mode,
In the massage mode, the control device is controlled to supply and exhaust air to the second air bag after supplying and exhausting air to the first air bag. Supply and exhaust
In the beauty salon mode, the control device is controlled to supply air to the second air bag after supplying air to the first air bag, and thereafter to supply air to the nth air bag in the same manner. And then exhaust the internal air from the first air bag to the nth air bag simultaneously or sequentially,
In the vibration mode, the control device is controlled to supply air to the second air bag after supplying air to the first air bag, and thereafter sequentially supply air to the nth air bag. After that, the air inside the n-th air bag is exhausted simultaneously or sequentially from the first air bag, and after a predetermined time, air is again supplied simultaneously or sequentially from the first air bag into the n-th air bag. The air inside the nth air bag is exhausted from the air bag,
The air supply time to each air bag in the massage mode is longer than those in the beauty treatment mode and the vibration mode, and the exhaust time in each mode is substantially the same.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
One embodiment of beauty and health equipment using the solenoid type solenoid valve device according to the present invention will be described in detail with reference to the accompanying drawings.
[0016]
FIG. 1 is a block diagram showing a configuration of a beauty and health equipment. In the figure, an air pump 10 creates compressed air for supplying air to an air bag. The supply amount of compressed air from the air pump is set to a predetermined value in advance. Once the power is turned on, the air pump is always driven unless the power is turned off, and the supply amount is not varied during operation. .
[0017]
The buffer chambers 12 and 14 for temporarily storing compressed air are divided into two parts. Solenoid solenoid valve devices SVA and SVB are respectively provided in the conduits CA and CB connecting the air pump and the buffer chambers, and ON / OFF of the air supply from the air pump is turned ON / OFF. In addition, although the buffer chamber was divided considering economically, it may be configured by one buffer chamber.
[0018]
The buffer chamber 12 includes supply / discharge conduits C1, C3, and C5 corresponding to the number of installed air bags 1; AB1, air bags 3; AB3, air bags 5; AB5. Further, an exhaust conduit CC is provided. The buffer chamber 14 includes supply and discharge conduits C2 and C4 corresponding to the number of installed air bags 2; AB2 and air bags 4; AB4. Further, an exhaust conduit CD is provided. The buffer chamber may be provided with a pressure sensor 58 that detects the pressure inside the buffer chamber.
[0019]
Solenoid solenoid valves SV1 to SV5 are disposed in the supply / discharge conduits C1 to C5 connecting the air bags (1 to 5) and the buffer chambers 12 and 14, respectively. Solenoid solenoid valves SVC and SVD are connected to the exhaust conduits CC and CD. The opening / closing time of the solenoid type solenoid valve devices (SV1 to SV5, SVC, SVD) is controlled by an electric control device (not shown).
[0020]
The configuration of the solenoid type electromagnetic valve device will be described below with reference to FIGS. Here, FIG. 2 shows a case where the air flow is interrupted, and FIG. 3 shows a case where the air flow occurs.
[0021]
In the figure, the solenoid type solenoid valve device 20 houses the following configuration in a plastic housing body 22. The housing body 22 includes two openings 24-1 and 24-2 for taking air in and out. When the solenoid type solenoid valve has an exhaust action, three openings are provided. The openings 24-1 and 24-2 are each connected to a conduit (not shown).
[0022]
The first valve component 26 includes a first stopper 28 that is made of an elastic member and has a hollow, and a first fitting body 30 that fits the first stopper 28. The The second valve constituting body 32 includes a second stopper body 34 made of an elastic member and having a hollow, and a second fitting body 36 that fits into the second stopper body. . The first and second fitting bodies 30 and 36 are respectively attached to the core rod of the plunger 40 that constitutes the electromagnetic drive device 38.
[0023]
The first and second stoppers are made of an elastic member such as rubber and have a thickness of 1.0 mm. Thus, when the fitting bodies 30 and 36 are fitted to the stopper bodies 28 and 34 and the plunger moves upward or downward, the stopper body can be elastically deformed upward or downward. Have the ability. FIG. 2 shows a state where the second stopper is deformed downward, and FIG. 3 shows a state where the first stopper is deformed upward. If it has this ability, it can have other elastic materials not limited to rubber, or a thickness. Further, a plurality of stoppers may be stacked.
[0024]
Furthermore, the hollow diameter formed in the first and second stoppers has a length that allows the cones of the first and second fitting bodies to be fitted. The first and second fitting bodies have a plastic cone shape. The second fitting body and the second fitting body have cones attached in opposite directions. In addition, it is preferable that the head part of the cone which comprises this 1st and 2nd fitting body protrudes from the hollow of the said 1st and 2nd stopper.
[0025]
The first valve component 26 and the second valve component 32 are disposed at a predetermined interval. That is, the first stopper body 28 and the second stopper body 34 are attached to the housing at a predetermined interval.
[0026]
Here, the predetermined interval is such that when one fitting body is inserted into the hollow of one stopper body and the stopper body is elastically deformed upward or downward to form a fitting state, the other fitting body Is a distance that can be separated from the hollow of the other stopper.
[0027]
The electromagnetic drive device 38 includes a plunger 40 and a solenoid 42. The solenoid 42 has a hole 44 in the longitudinal direction at a central position. An air escape hole 46 is formed at the lower end of the longitudinal hole 44. Thus, the plunger 40 moves up and down in the hole by electromagnetic action. The plunger 40 has a coil spring 48 inserted between the second stopper plate and the upper surface of the solenoid.
[0028]
Furthermore, the coil spring 48 includes first and second contact plates 50 and 52 at the upper and lower ends thereof, and the first contact plate contacts the stopper of the second valve component, The second contact plate contacts the upper surface of the solenoid.
[0029]
As shown in FIG. 4, the housing body has a first pressing body 54 for pressing the first and second stoppers, respectively, as shown in FIG. And a second presser body 56 is disposed between the second stopper body and the upper surface of the solenoid. The first and second presser bodies 54 and 56 are hollow cylindrical bodies that fit into the housing.
[0030]
Thus, when air is allowed to flow between the first opening 24-1 and the second opening 24-2, first, the solenoid is driven to move the plunger upward as shown in FIG. The second fitting body is released from the second stopper body of the valve component. Then, the first fitting body 30 of the first valve component 26 is fitted to the first stopper 28. Here, the drive of the solenoid is stopped.
[0031]
Thus, when such a state is obtained, the air entering from the first opening 24-1 flows through the opened second valve structure 32 to the second opening 24-2. Conversely, air entering from the second opening 24-2 flows to the first opening through the opened second valve structure 32.
[0032]
On the other hand, when the flow of air is interrupted, the solenoid may be operated in the reverse manner. That is, as shown in FIG. 2, the plunger is moved downward so that the second fitting body 36 of the second valve component 32 is fitted to the second stopper 34. Then, the first fitting body 30 of the first valve component 26 is released from the first stopper 28.
[0033]
5 and 6 illustrate another embodiment of the solenoid solenoid valve. Here, FIG. 5 shows a case where an air flow is caused (energization to the solenoid; OFF), and FIG. 6 shows a case where the air flow is interrupted (energization to the solenoid; ON).
[0034]
In the figure, a solenoid type electromagnetic valve 60 accommodates the following configuration in a plastic housing body 62. The housing body 62 includes two openings 64-1 and 64-2 for taking air in and out. When the solenoid type solenoid valve has an exhaust action, three openings are provided. Each of the openings 64-1 and 64-2 is connected to a conduit (not shown).
[0035]
A plunger 66 that moves up and down by electromagnetic action is disposed inside the housing. One end of the plunger 66 includes a contact body 68. The valve component 70 includes a stopper 72 that is attached to the housing and made of an elastic member having a hollow, and an abutting member 68 that abuts against the stopper 72. The plunger moves up and down by electromagnetic action with the solenoid 74.
[0036]
The stopper 72 is made of an elastic member such as rubber and has a thickness of 1.0 mm. The abutment body 68 abuts on the stop body 62. When the plunger moves upward or downward, the stopper has an ability to be elastically deformed upward or downward. If it has this ability, it can have other elastic materials not limited to rubber, or a thickness. Furthermore, the hollow diameter formed in the said stop body has the length which a contact body can contact | abut.
[0037]
Thus, when the plunger moves downward as shown in FIG. 5, the contact between the contact body 68 and the stop body 72 is released. Thus, the air flows from one opening 64-1 to the other opening 64-2. On the other hand, when the plunger moves upward as shown in FIG. 6, the contact body 68 and the stop body 72 contact each other. Thus, the flow of air from one opening to the other is blocked.
[0038]
Hereinafter, the air supply / discharge state of the air bag in the massage mode, the beauty treatment mode, and the vibration mode obtained by controlling the solenoid type solenoid valve described above will be described.
[0039]
FIG. 7 is a schematic view showing an air supply / discharge state of the air bag in the massage mode. In the massage mode, the control device is controlled to supply and exhaust air to and from the first air bag, and then supply and exhaust air to and from the second air bag. It is characterized in that air is supplied to and exhausted sequentially.
[0040]
The supply / exhaust of compressed air from the air pump 10 to the air bags 1 to 5 will be described. First, all solenoid solenoid valves (SVA, SVB, SVC, SVD, SV1 to SV5) are closed before turning on the power. Turn on the power and drive the air pump to send out compressed air.
[0041]
Next, SVA and SV1 are opened. Thus, the compressed air is supplied to the air bag 1; AB1 through the buffer chamber 12. Here, the opening time of SVA and SV1 is 4.2 seconds to 4.4 seconds. When this time elapses, SVA and SV1 are closed.
Thus, a predetermined amount of air is present in the air bag 1 (t1).
[0042]
After 0.7 seconds have elapsed after SVA and SV1 are closed, SVC and SV1 are opened, and the air in air bag 1 is discharged to the atmosphere (t2).
[0043]
Exhaust holding time; SVB and SV2 open after 2.4 seconds to 2.6 seconds. Thus, the compressed air is supplied to the air bag 2; AB2 through the buffer chamber 14. Here, the opening time of SVB and SV2 is 4.2 seconds to 4.4 seconds, and when this time has elapsed, SVB and SV2 are closed. Thus, a predetermined amount of air exists in the air bag 2 (t2).
[0044]
When 0.7 seconds have elapsed after SVB and SV2 are closed, SVD and SV2 are opened, and the air in air bag 2 is discharged to the atmosphere (t3).
[0045]
Thereafter, the above-described operation is repeated, and air is sequentially supplied to and discharged from the air bag 3; AB3, air bag 4; AB4, air bag 5; AB5 (t3 to te).
[0046]
Thus, the affected part is provided with the massage action by the repeated supply and exhaust of air in the air bag 1 to the air bag 5 described above.
[0047]
FIG. 8 is a schematic diagram showing the air supply / discharge state of the air bag in the beauty salon mode.
In the beauty salon mode, the control device is controlled to supply air to the second air bag after supplying air to the first air bag, and thereafter the air from the third air bag to the fifth air bag in the same manner. Supply is sequentially performed, and thereafter, the internal air of the first air bag to the fifth air bag is exhausted simultaneously or sequentially.
[0048]
Supply and exhaust of compressed air from the air pump 10 to the air bags 1 to 5 will be described. First, all solenoid solenoid valves (SVA, SVB, SVC, SVD, SV1 to SV5) are closed before turning on the power. Turn on the power and drive the air pump to send out compressed air.
[0049]
Next, SVA and SV1 are opened. Thus, the compressed air is supplied to the air bag 1; AB1 through the buffer chamber 12. Here, the opening time of SVA and SV1 is 2.5 seconds, and when this time elapses, SVA and SV1 are closed. Thus, a predetermined amount of air is present in the air bag 1 (t1).
[0050]
SVB and SV2 are opened when 0.5 seconds have elapsed after the air is supplied to the air bag 1. Thus, the compressed air is supplied to the air bag 2; AB2 through the buffer chamber 14. Here, the opening time of SVB and SV2 is 2.5 seconds, and when this time elapses, SVB and SV2 are closed. Thus, a predetermined amount of air exists in the air bag 2 (t2).
[0051]
Thereafter, the above-described operation is repeated, and air is supplied to the air bag 3; AB3, air bag 4; AB4, air bag 5; AB5. Thus, a predetermined amount of air is present in the air bag 3, the air bag 4, and the air bag 5 (t3 to t5). In addition, the time for which air is held in the air bag 1 to the air bag 5 is 3.0 seconds.
[0052]
Thereafter, SV1 to SV5, SVC and SVD are opened, and the air in air bag 1 to air bag 5 is discharged to the atmosphere simultaneously or sequentially (te).
[0053]
Thus, the esthetic action by the repeated supply and exhaust of air in the air bags 1 to 5 is provided to the affected part.
[0054]
FIG. 9 is a schematic diagram showing an air supply / discharge state of the air bag in the vibration mode. In the vibration mode, the control device is controlled to hold after supplying air to the first air bag, and then to hold after supplying air to the second air bag. Supply and hold air in sequence. Thereafter, a small amount of air in the fifth air bag is exhausted simultaneously or sequentially from the first air bag, and a small amount of air is again supplied simultaneously from the first air bag into the nth air bag after a predetermined time. And the operation | movement of small amount exhaust_gas | exhaustion to an air bag and small amount supply is repeated. Thereafter, the internal air of the fifth air bag is exhausted simultaneously or sequentially from the first air bag.
[0055]
The distribution of the air supply / exhaust of the air bag is set so as to obtain a substantially constant tightening pressure so that the pressure does not decrease or increase sequentially by repeating the operation of the air bag.
Supply and exhaust of compressed air from the air pump 10 to the air bags 1 to 5 will be described. First, all solenoid solenoid valves (SVA, SVB, SVC, SVD, SV1 to SV5) are closed before turning on the power. Turn on the power and drive the air pump to send out compressed air.
[0057]
Next, the valves SVA and SV1 are opened. Thus, the compressed air is supplied to the air bag 1; AB1 through the buffer chamber 12. Here, the opening time of SVA and SV1 is 2.5 seconds, and when this time elapses, the electric VA and SV1 are closed. Thus, a predetermined amount of air is present in the air bag 1 (t1).
[0058]
The electromagnetic valves SVB and SV2 open when 0.5 seconds have elapsed after the air is supplied to the air bladder 1. Thus, the compressed air is supplied to the air bag 2; AB2 through the buffer chamber. Here, the opening time of the electromagnetic valves SVB and SV2 is 2.5 seconds, and when this time elapses, the electromagnetic valves SVB and SV2 are closed. Thus, a predetermined amount of air exists in the air bag 2 (t2).
[0059]
Thereafter, the above-described operation is repeated, and air is supplied to the air bag 3; AB3, air bag 4; AB4, air bag 5; AB5. Thus, a predetermined amount of air is present in the air bag 3, the air bag 4, and the air bag 5 (t3 to t5). Note that the time during which air is held in the air bag 1 to the air bag 5 is 3.0 seconds.
[0060]
Next, SV1, SV2, SV3, SV4, and SV5 are opened simultaneously or sequentially with SVA, SVB, SVC, and SVD open. Here, the time for opening SV1, SV2, SV3, SV4, and SV5 is 0.1 second. Thus, in the air bag 1 to the air bag 5, a state where air is slightly removed is obtained (t6, t8, t10).
[0061]
Thereafter, SVC and SVD are closed, SVA and SVB are opened, and SV1, SV2, SV3, SV4, and SV5 are simultaneously or sequentially opened. Here, the time for opening SV1, SV2, SV3, SV4, and SV5 is 0.3 seconds. Thus, air is supplied again in the air bags 1 to 5 (t7, t9, t11).
[0062]
In this way, the affected part is provided with a vibration action by repeating air exhaust (t6, t8, t10) and air supply (t7, t9, t11) at a short time interval of air in the air bag 1 to air bag 5 described above. The
[0063]
After use, the valves SV1 to SV5, SVC and SVD are opened, and the air in the air bags 1 to 5 is exhausted to the atmosphere simultaneously or sequentially (te).
[0064]
【The invention's effect】
According to the beauty and health equipment according to the present invention, it is possible to change the mode such as the massage mode, the esthetic mode, or the vibration mode with high reliability and relatively low price.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a beauty and health device according to the present invention.
FIG. 2 is a schematic view showing a solenoid type electromagnetic valve device.
FIG. 3 is a schematic view showing a solenoid type electromagnetic valve device.
FIG. 4 is a partially exploded view showing a solenoid type electromagnetic valve device.
FIG. 5 is a schematic view showing an OFF state of another solenoid type electromagnetic valve device.
6 is a schematic view showing an ON state of the solenoid type electromagnetic valve device of FIG. 5;
FIG. 7 is a schematic view showing an air supply / discharge state of an air bag in a massage mode.
FIG. 8 is a schematic view showing an air supply / discharge state of an air bag in an esthetic mode.
FIG. 9 is a schematic view showing an air supply / discharge state of an air bag in a vibration mode.
[Explanation of symbols]
10; air pumps 12, 14; buffer chambers SVA, SVB, SVC, SVD, SV1 to SV5; solenoid type solenoid valve devices CA, CB, CC, CD, C1 to C5; conduits AB1, AB2, AB3, AB4, AB5; Air bags 22, 62; Housing bodies 24-1, 24-2, 64-1, 64-2; Openings 26, 32, 70; Valve components 28, 34, 72; Stop bodies 30, 36; 66; Plunger 68; Contact body 52, 74; Solenoid

Claims (1)

An air compression device, a plurality of air bags, a buffer chamber for storing air from the air compression device, and the buffer chamber connects the buffer chamber and the air compression device and air from the air compression device And a conduit for supplying air from the buffer chamber to each air bag and sending air from each air bag to the buffer chamber; and a conduit for exhausting air from the buffer chamber A solenoid type solenoid valve device that is disposed in each of the conduits and opens and closes for supplying and / or exhausting air, and supplying the air to each air bag by opening and closing the solenoid type solenoid valve device And a control device for controlling the exhaust to control any one of the massage mode, the esthetic mode, and the vibration mode,
In the massage mode, the control device is controlled to supply and exhaust air to the second air bag after supplying and exhausting air to the first air bag. Supply and exhaust
In the beauty salon mode, the control device is controlled to supply air to the second air bag after supplying air to the first air bag, and thereafter to supply air to the nth air bag in the same manner. And then exhaust the internal air from the first air bag to the nth air bag simultaneously or sequentially,
In the vibration mode, the control device is controlled to supply air to the second air bag after supplying air to the first air bag, and thereafter sequentially supply air to the nth air bag. After that, the air inside the n-th air bag is exhausted simultaneously or sequentially from the first air bag, and after a predetermined time, air is supplied again from the first air bag into the n-th air bag simultaneously or sequentially. The air inside the nth air bag is exhausted from the air bag,
The air supply time to each air bag in the massage mode is longer than those in the beauty treatment mode and the vibration mode, and the exhaust time in each mode is substantially the same.

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