JPH0458401B2 - - Google Patents

Description

Detailed Description of the Invention (Industrial Application Field) The present invention provides an oxygen supply device that supplies plenty of oxygen into the body for breathing and recovering from fatigue immediately after sports, etc., and an oxygen supply device for cooling the body. This invention relates to a portable fan that can also be used as an oxygen supply device.

(Prior Art) Immediately after engaging in strenuous sports such as tennis, marathons, aerobics, and mountain climbing, the body tends to lack oxygen. Therefore, for respiratory support and fatigue recovery,
An example of an oxygen supply device that can easily replenish oxygen into the body is disclosed in Japanese Patent Application Laid-Open No. 61-222906. In this method, sodium percarbonate, manganese dioxide, and water are separated and stored in a container by a partition wall, and when oxygen is generated, the partition wall is destroyed and the chemicals are mixed and reacted. It is designed to generate.

Another example of an oxygen supply device is one in which a low-pressure container is compressed and filled with pure oxygen, and the compressed oxygen is gradually discharged to supply oxygen.

Additionally, there are portable fans that are useful for cooling down sweaty bodies immediately after sports. This system has a fan placed inside a small, portable main body case made of resin, etc., and a battery that supplies power to the fan is housed in an easily replaceable battery that controls the power supply from the power source to the fan. A switch is provided to control the rotational drive of the fan.

(Problems to be Solved by the Invention) Immediately after sports, if the oxygen in the body that is deficient can be quickly replenished while cooling the body, fatigue and vitality can be quickly recovered. However, with the above-mentioned conventional oxygen supply device, although it is possible to replenish oxygen, it is not possible to cool the body.
Furthermore, the concentration of oxygen inhaled into the body is not constant, and there is a risk of inhaling high-concentration oxygen, which is not necessarily safe for health. Additionally, portable fans can only help cool people down.

Furthermore, it is cumbersome to carry two devices, an oxygen supply device and a portable electric fan. Particularly when mountain climbing, it is highly desirable for portable items to be smaller and lighter, so carrying the two devices described above is extremely cumbersome.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an oxygen supply device and a portable fan that can be used both as an oxygen supply device and a portable fan.

(Means for Solving the Problems) In order to achieve the above object, the oxygen supply device and portable electric fan of the present invention includes a fan disposed inside a small portable main body case, and an outer circumferential wall of the main body case. A discharge port is opened facing the discharge side of the fan, and an intake port is opened so as to communicate with the suction port of the fan, and an oxygen discharge port is connected to the suction port of the fan in the main body case. An oxygen generator is detachably attached, a shutter for adjusting the ventilation area is provided at the intake port, and a control switch is provided for switching and controlling the drive of the fan, so that the operation of the control switch and the operation of the shutter are linked. and the control switch controls the rotation of the fan at a high speed, and the shutter fully opens the ventilation area of the intake port, and the control switch controls the rotation of the fan at a low speed. The shutter is configured to keep the ventilation area of the intake port in a half-open state.

Further, the operation knob of the control switch is switched to "high speed", "stop", and "low speed" by sequentially moving the same distance, and the intake port is connected to a long hole having a width twice the width of the distance and the distance is non-perforated portions having a width of and the operation knob of the control switch is set to "high speed"
The elongated hole of the air intake port may be aligned with the elongated hole of the shutter at the operating position.

(Function) By interlocking the shutter and the control switch, if the fan is controlled to rotate at high speed and the ventilation area of the intake port is fully opened, a large amount of air is violently discharged from the discharge port, making it easy to use as a portable fan to cool yourself down. You can take it. Then, if oxygen is generated from the oxygen generator, the fan is controlled to rotate at low speed, and the ventilation area of the intake port is left half-open, oxygen diluted with air to a predetermined concentration is discharged from the discharge port. By inhaling oxygen, you can safely replenish your body with oxygen.

In addition, the air intake port is formed by alternately arranging a long hole having a width twice the movement operation distance of the control switch and a non-perforated portion having the same width as the said distance, and a similar long hole and a non-perforated portion are arranged in the shutter. If the shutter is moved by the same distance as the control switch, the ventilation area of the intake port can be switched between fully open and half open, which simplifies the structure for interlocking the shutter and control switch. .

(Example) Hereinafter, an example of the present invention will be described with reference to FIGS. 1 to 9. FIG. 1 is a longitudinal cross-sectional view of an embodiment of the oxygen supply device and portable fan of the present invention, FIG. 2 is a side view taken in the direction of arrow A in FIG. 1, and FIG. FIG. 4 is a perspective view of the external appearance of the oxygen supply device/portable fan and chemical oxygen generator, and FIG. 4 is a diagram showing that the ventilation area of the intake port is fully open when the control switch is in the "high speed" state. 5 is a connection wiring diagram of the control switch in the state shown in FIG. 4, FIG. 6 is a diagram showing the control switch in the "stop" state, and FIG. 7 is a diagram showing the control switch in the state shown in FIG. FIG. 8 is a diagram showing that the ventilation area of the intake port is in a half-open state when the control switch is in the "low speed" state, and FIG. It is a manufacturing wiring diagram of the control switch in the state shown in the figure.

In the figure, a main body case 1 is made of resin, and a head portion 1 _a at the upper end is integrally formed with a body portion 1 _c at the lower end via a narrow neck portion 1 _b . This main body case 1 is small and portable enough to be held with one hand. Then, the head 1 _a of this main body case 1
A motor 2 is fixed therein with its rotating shaft protruding downward, and a turbo-type blower, for example, a centrifugal fan 3, is disposed on the rotating shaft of the motor 2. Further, a discharge port 4 is opened on the outer circumferential wall of the head _1a facing the discharge side of the centrifugal fan 3, and a motor 2
A ventilation port 5 is provided to cool the air.

Further, an opening 6 is provided on the lower end surface of the body 1 _c ,
This opening 6 allows a chemical oxygen generator 7 to be connected to the body 1.
_c , and is detachably attached to the main body case 1. This chemical oxygen generator 7 is installed by an appropriate click mechanism (not shown) in the installed state, or by a groove and a protrusion that are screwed together by rotating the device by a predetermined angle with the insertion direction as the rotation axis after insertion. The attached state is maintained stably. The attached chemical oxygen generator 7 is supported by ribs (not shown) protruding from the inside of the outer circumferential wall of the body 1 _c , and the chemical oxygen generator 7 and the outer circumferential wall of the body 1 _c A small space is provided between them. This small space prevents the heat generated when generating oxygen in the chemical oxygen generator 7 from being transmitted to the outer peripheral wall of the body 1 _c . In addition, an intake port 8 is provided on the outer peripheral wall of the body _1c .
is opened, and a shutter 9 is slidably disposed in this intake port 8. Further, a control switch 10 is provided, and its operation knob 11 penetrates through the shutter 9, and by operating the operation knob 11 from outside the main body case 1, the control switch 10 and the shutter 9 can be operated.
are configured to work together. The intake hole 8 and the oxygen discharge port 7 _a of the chemical oxygen generator 7 are communicated with the suction port of the centrifugal fan 3 via the neck portion 1 _b by a communication passage 12 . Furthermore, a battery 13 for supplying power to the motor 2 via the control switch 10 is housed in the body _1c so as to be easily replaceable.

By the way, the control switch 10 has the fourth, sixth, and eighth switches.
As shown in the figure, the operating knob 11 moves a distance P at equal intervals.
can be switched to three positions. At the position of the operation knob 11 in FIG. 4, a closed circuit is formed by the motor 2 and the battery 13 as shown in FIG. 5, and the motor 2 is controlled to rotate at high speed. This is therefore the "high speed" position of control switch 10. Also, the 6th
At the position of the operation knob 11 shown in the figure, as shown in FIG.
The circuit between motor 2 and battery 13 is opened, motor 2 is stopped, and control switch 10 is in the "stop" position. Furthermore, at the position of the operation knob 11 in FIG. 8, a resistor 14 is connected in series with the closed circuit between the motor 2 and the battery 13, as shown in FIG. 9, so that the motor 2 is controlled to rotate at a low speed. This is therefore the "low speed" position of control switch 10.

Further, the intake port 8 has elongated holes 8 _a , 8 _a . It is formed by Then, elongated holes 9 a , 9 _{a .} . . having a width 2P, which is twice the distance P, and non-perforated portions having a width equal to the distance P are alternately arranged in the shutter 9 in correspondence with the intake port ₈ . . Furthermore, as shown in FIG. 4, when the operation knob 11 of the control switch 10 is in the "high speed" position, the elongated holes 8 _a , 8 _a . . .
and the elongated holes 9 _a , 9 _a . . . of the shutter 9 are arranged in correspondence so that they overlap and the ventilation area of the air intake port 8 is fully open. Then, if the operating knob 11 is moved by a distance P to the "stop" position, the elongated holes 8 _a , 8 _{a ,} . . .
The elongated holes 9 _a a, 9 _a . . . of the shutter 9 are shifted by a distance P relative to the shutter 9, and the intake port 8 is in a half-open state. Furthermore _, if the operating knob 11 is moved by a distance P to the "low speed _" position, as shown in FIG. _a , 9 _{a .} . . are further shifted by a distance P, and the intake port 8 is in a half-open state.

Here, the chemical oxygen generator 7 will be briefly explained. For example, granular sodium percarbonate as a hydrogen peroxide derivative and manganese dioxide as a decomposition catalyst sealed in a water-soluble paper bag are stored in a container made of resin or the like. A water injection hole _7b is provided in the container, and is normally closed with a stopper _7c . Also,
A breathable and water-impermeable membrane _7d is provided to cover the oxygen outlet _7a . The chemical oxygen generator 7 has such a configuration, and when generating oxygen, a predetermined amount of water is poured into the container from the water injection hole _7b . Then, the water-soluble paper bag containing manganese dioxide dissolves, and oxygen is generated by the reaction of manganese dioxide and sodium percarbonate in water.

In this configuration, when functioning as a portable electric fan, the operation knob 11 is set to "high speed" as shown in FIG. 4 without injecting water into the chemical oxygen generator 7 and generating oxygen. Then, the ventilation area of the intake port 8 becomes fully open, and the centrifugal fan 3
is rotated at high speed. Therefore, a large amount of air is sucked in by the centrifugal fan 3 from the intake port 8, and a large amount of air is vigorously discharged from the discharge port 4 as a cool breeze.

In addition, when functioning as an oxygen supply device,
Water is poured into the chemical oxygen generator 7 to generate oxygen, and the operating knob 11 is set to "low speed" as shown in FIG. Then, the ventilation area of the intake port 8 becomes a half-open state, and the centrifugal fan 3 is controlled to rotate at a low speed. The air from the intake port 8 and the oxygen generated by the chemical oxygen generator 7 are both sucked into the centrifugal fan 3, mixed, and then discharged from the discharge port 4. Here, the amount of air sucked from the intake port 8 is determined by the ventilation area of the intake port 8 and the centrifugal fan 3.
It is almost constant depending on the suction force. Further, the amount of oxygen generated by the chemical oxygen generator 7 can also be considered to be approximately constant. Therefore, oxygen diluted to approximately a predetermined concentration is discharged from the discharge port 4.

Note that the oxygen generator is not limited to the chemical oxygen generator 7 as in the above embodiment, but may be a low-pressure container compressed and filled with pure oxygen. The chemical oxygen generator 7 is not limited to the structure of the above embodiment,
Any structure may be used as long as it can appropriately chemically generate oxygen. Further, instead of the centrifugal fan 3, a fan of any structure such as an axial flow fan, a diagonal flow fan, or a cross flow fan may be used.
Furthermore, as shown in FIGS. 5 and 9, the circuit for controlling the rotation of the motor 2 at high and low speeds is not limited to a circuit in which a resistor 14 is interposed;
Multiple batteries 3 are installed, and multiple batteries 1 are installed with high-speed rotation control.
3 may be connected in series to apply a high voltage to the motor 2, and a plurality of batteries 13 may be connected in parallel under low speed rotation control to apply a low voltage to the motor 2. Furthermore, the interlocking of the control switch 10 and the shutter 9 is not limited to the structure of the above embodiment, and it goes without saying that the control switch 10 may be configured so that the control switch 10 is switched by moving the shutter 9. .

(Effects of the Invention) Since the oxygen supply device and portable electric fan of the present invention is configured as described above, it exhibits the following particularly excellent effects.

The control switch and shutter work together, making it easy to operate. When functioning as a portable fan, the fan can be controlled to rotate at high speed and the intake port is fully open. When functioning as an oxygen supply device, the fan can be controlled to rotate at high speed. Oxygen can be diluted to a predetermined concentration by controlling the rotation at a low speed and keeping the intake port in a half-open state. Therefore, we have developed a portable fan that can easily cool you down, and an oxygen supply device that can easily replenish oxygen without causing any harm to your health.
One device can be used for both purposes and is easy to operate.

In addition, if long holes with a width twice the distance and non-perforated portions with a width equal to the distance are alternately provided at the intake port and the shutter in accordance with the movement distance of the control switch, the shutter and control switch can be linked. In addition to simplifying the structure, the aperture ratio of the air intake port in the fully open state can be increased, and a large ventilation area can be obtained in a narrow space. This large ventilation area allows a large amount of air to be sucked in, resulting in good ventilation efficiency when functioning as a portable electric fan.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view of one embodiment of the oxygen supply device and portable electric fan of the present invention, and FIG.
3 is an external perspective view of the oxygen supply device/portable fan and chemical oxygen generator of the present invention, and FIG. 4 shows the control switch in the "high speed" state. FIG. 5 is a diagram showing that the ventilation area of the intake port is fully open when .
The figure shows the control switch in the "stop" state, FIG. 7 shows the connection wiring diagram of the control switch in the state of FIG. 6, and FIG. 8 shows the control switch in the "low speed" state. FIG. 9 is a diagram showing the connection wiring diagram of the control switch in the state shown in FIG. 8. FIG. 1: Main body case, 3: Centrifugal fan, 4: Discharge port, 7: Chemical oxygen generator, 8: Inlet port, 8 _a ,
9 _a : Long hole, 9: Shutter, 10: Control switch, 11: Operation knob.

Claims (1)

[Scope of Claims] 1. A fan is disposed in a small portable main body case, and a discharge port is opened in the outer peripheral wall of the main body case facing the discharge side of the fan, and
An air intake port is opened in communication with the air intake port of the fan, an oxygen generator is detachably attached to the main body case so that an oxygen discharge port communicates with the air intake port of the fan, and a ventilation area is provided at the air intake port. A shutter for adjustment is provided, a control switch is provided for switching and controlling the drive of the fan, and the operation of the control switch is linked with the operation of the shutter,
When the fan is controlled to rotate at a high speed by the control switch, the shutter fully opens the ventilation area of the intake port, and when the fan is controlled to rotate at a low speed by the control switch, the shutter opens. An oxygen supply device and portable electric fan, characterized in that the ventilation area of the intake port is configured to be in a half-open state. 2. The operation knob of the control switch is switched to "high speed", "stop", and "low speed" by moving the same distance in sequence, and the intake port is connected to a long hole having a width twice the width of the distance. a long hole having a width twice the distance and a non-perforation portion having a width equal to the distance are alternately arranged in the shutter so as to correspond to the air intake port; 2. The oxygen supply device and oxygen supply device according to claim 1, wherein the operation knob of the control switch is configured such that the long hole of the intake port and the long hole of the shutter coincide with each other when the operation knob of the control switch is in the "high speed" operating position. Portable electric fan.