JP2007151855A - Oxygen enrichment system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an oxygen enrichment system which can be freely used even while traveling on a bicycle, a motorcycle, etc. outdoors. <P>SOLUTION: The oxygen enrichment system is provided with: a main body 1 which is mounted to a motorcycle 36 which travels by a wheel 36a which rotates by an engine (not shown in Fig.) and which incorporates an oxygen enrichment means (not shown in Fig.); a discharge part (not shown in Fig.) which discharges oxygen-enriched air produced by the oxygen enrichment means; an oxygen-enriched air discharge means 7 communicated with the discharge part through a 1st connecting tube 13 and supplying the oxygen-enriched air to a user; and an operation part 15 which controls operation of the main body 1. The system generates electricity with power from the engine, and supplies the generated power to the main body 1. Thus, the oxygen enrichment system can be freely used even outdoors where commercial power source cannot be obtained and even while traveling on the motorcycle 36 outdoors. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an oxygen enricher that provides oxygen enriched air to a user.

A conventional oxygen enricher of this type will be described with reference to FIG. FIG. 14 shows a cross-sectional view of a conventional oxygen enricher. The main body 50 of the oxygen enricher includes an oxygen enrichment means 51 for increasing the oxygen concentration in the air and a pump means 53 for supplying the oxygen enriched air obtained by the oxygen enrichment means 51 to the discharge means 52. A carrying handle 54 and a power cord 55 for supplying power to the pump means 53 are provided. The discharge means 52 is communicated with a discharge port (not shown) provided in a headset (not shown) set on the user's head.

  Then, when the user sets the headset on the head, plugs the power cord 55 into the indoor outlet, and turns on the power switch (not shown) of the main body 50, the operation of the pump means 53 starts, and the outside air is oxygenated. The air which is sucked into the enrichment means 51 and oxygen-enriched is sent to the discharge means 52 so that the user can suck the oxygen-enriched air from the discharge port set at his mouth. (For example, refer to Patent Document 1).

  However, in the conventional oxygen enricher, the main body 50 is operated with an AC power supply, and therefore can be used only indoors, and cannot be used for commercial power, especially outdoors. There is a problem that it cannot be used in, for example, bicycles, motorcycles (motorbikes), and automobiles.

In order to solve this problem, there is also an oxygen enricher that uses a secondary battery as a power source (see, for example, Patent Document 2).
Registered Utility Model No. 3096113 JP 2005-270264 A

  However, in the oxygen enricher using the conventional secondary battery as a power source, while the oxygen enricher is being used outdoors, for example, in a bicycle, a motorcycle (motorcycle bicycle), an automobile, etc., If the battery is depleted, you have to give up the continued use of the oxygen enricher or go to your home or a place where you can get a nearby AC power source and recharge the secondary battery. There was a problem of being bad.

  The present invention solves the above-mentioned conventional problems, and is an oxygen that can be used freely and for a long time outdoors even when a commercial power source cannot be obtained, especially while traveling on a bicycle or motorcycle (motorcycle bicycle). The purpose is to provide an enrichment machine.

  In order to solve the above-described conventional problems, the oxygen enricher of the present invention is mounted on a device that travels on wheels that are rotated by power means, and is generated by the main body incorporating the oxygen enrichment means and the oxygen enrichment means. A discharge unit that discharges the oxygen-enriched air, an oxygen-enriched air discharge unit that communicates with the discharge unit via a connecting pipe and supplies oxygen-enriched air to a user, and controls the operation of the main body Operating means, generating power using the power from the power means or the power accompanying the rotation of the wheels, and supplying the generated power to the main body, during outdoor movement where commercial power cannot be obtained For example, it is possible to provide an oxygen-enriching machine that can be used freely and for a long time even during movement using a bicycle or motorcycle (motorbike).

  The oxygen-enriching machine of the present invention can be used freely outdoors, where a commercial power source is not available, especially during movement using a bicycle, a motorcycle (bicycle with a motor), or the like.

  The first invention is mounted on a device that travels on wheels that are rotated by power means, and includes a main body that incorporates oxygen-enriching means, a discharge unit that discharges oxygen-enriched air generated by the oxygen-enriching means, An oxygen-enriched air discharge means that communicates with the discharge section via a connecting pipe and supplies oxygen-enriched air to a user; and an operation means that controls the operation of the main body. Electricity is generated by the power accompanying the rotation of the wheels, and the generated power is supplied to the main body. For example, a bicycle or motorcycle (motorbike) is used during outdoor movement where commercial power cannot be obtained. It is possible to provide an oxygen enricher that can be used freely and for a long time even during all movements.

  In particular, the second invention includes a secondary battery that can be charged to the oxygen-enriching machine of the first invention, and the secondary battery using generated power generated by power from a power means or power accompanying rotation of a wheel. To provide an oxygen-enriching machine that is provided with charging means for charging and that is easy to use because no power is required because power from the power means or wheels can be generated and charged to the secondary battery while moving outdoors. it can.

  In particular, the third invention is mounted on a device using a prime mover as a power means of the first invention, and is free even during movement on a motorcycle or a device with a prime mover outdoors, where a commercial power source cannot be obtained. It is possible to provide an oxygen enricher that can be used.

  According to a fourth aspect of the invention, in particular, the oxygen-enriching machine of the third aspect is provided with a rechargeable secondary battery and a charging means for generating power by power from the prime mover and charging the secondary battery with the generated power. Therefore, since the power from the prime mover is used to charge the secondary battery with the charging means while moving outdoors, a power source is unnecessary and an easy-to-use oxygen enricher can be provided.

  In particular, the fifth invention is mounted on a device using a stepping means that a rider steps on with his / her foot as the power means of the first invention, and is traveling outdoors or outdoors where commercial power cannot be obtained. For example, it is possible to provide an apparatus having stepping means, that is, an oxygen enricher that can be used freely even while traveling on a bicycle.

  In particular, the sixth invention is provided with a secondary battery that can be charged to the oxygen-enriching machine according to the fifth invention, and a charging means that generates power by power from the stepping means and charges the secondary battery with the generated power. In addition, a power supply is not required because the power generated by pedaling a pedal as a stepping means for a bicycle can be generated and charged to the secondary battery by the charging means while moving outdoors, and an easy-to-use oxygen enricher is provided. be able to.

  In the seventh invention, in particular, the oxygen-enriched air discharge means according to any one of the first to sixth inventions is provided in a helmet worn by a user, and the oxygen-enriched air discharge means is separate from the helmet. It is possible to provide an oxygen enricher that is easy to use and is easy to use because it is not necessary for the user to wear it.

  In the eighth invention, in particular, the oxygen-enriching machine according to the first invention is mounted on a wheelbarrow that travels on a wheel that rotates with a push-pull operation by a user as a power means, and an outdoor power source that does not provide a commercial power source. It is possible to provide an oxygen-enriching machine that can be used freely while traveling outdoors, for example, while using a wheelbarrow such as a baby carriage.

  In the ninth aspect of the invention, in particular, a rechargeable secondary battery is provided in the oxygen enricher of the eighth aspect of the invention, and the secondary battery is charged with the power generated by the power generated by the rotation of the wheel. Thus, since the secondary battery can be charged while traveling outdoors, an oxygen enricher that does not require a power source and is easy to use can be provided.

  In the tenth aspect of the invention, in particular, the operating means according to any one of the first to ninth aspects is separated from the main body, and the operating means is provided in a handle portion provided in a device that runs on wheels. It is possible to perform control operations such as operation and stop of the main unit from a distance, and at the same time operate the oxygen enricher while operating the device running on wheels, so it is very easy to use oxygen enrichment Machine can be provided.

  In the eleventh aspect of the invention, in particular, the operation means and the main body according to any one of the first to tenth aspects are unitized, and the operation means and the main body are detachably attached to a device that travels on wheels. The unitized operation means and the main body can be very easily attached to and incorporated in a device that travels with wheels.

  A twelfth aspect of the present invention is a control unit that transmits or transmits / receives a control signal from the operation unit of any one of the first to eleventh aspects of the invention. The control means arranged in the operation means and the operation means separated from the main body can be wireless, and the operation means can be easily seen and operated in a place where the user can reach regardless of the installation location of the main body. Can be placed freely.

  The thirteenth invention particularly has a wiring cord for electrically connecting the operating means of any one of the first to twelfth inventions and the main body, the wiring cord, the main body and / or the operating means, It is possible to easily perform the wiring processing work between the operating means and the main body.

  In the fourteenth aspect of the invention, in particular, the connecting pipe of any one of the first to thirteenth aspects is detachable from the main body and / or the oxygen-enriched air discharge means, and between the oxygen-enriched air discharge means and the main body. The connecting work of the connecting pipe can be easily performed.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
Hereinafter, an oxygen enricher according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a front view of the main body of the oxygen enricher in the present embodiment, FIG. 2 is a side view of the main body, FIG. 3A is a rear view of the main body, and FIG. FIG. 4 is a side cross-sectional view of the main body, FIG. 5 is a cross-sectional view of the operation part of the oxygen enrichment machine, and FIG. 6 is an operation part of the oxygen enrichment machine. FIG. 7 is an external perspective view showing a state where the oxygen enrichment machine is attached to a motorcycle, FIG. 8 is an external perspective view showing a state where the oxygen enrichment machine is attached to a bicycle, and FIG. FIG. 10 is a side view of a power adapter of the oxygen enrichment machine, and FIG. 11 is a schematic diagram illustrating another configuration example of the oxygen enrichment machine. FIG. 12 is a schematic configuration diagram showing another configuration example of the oxygen enricher, and FIG. 13 is a schematic configuration diagram showing another configuration example of the oxygen enricher.

  1 to 13, the oxygen enricher main body 1 (hereinafter referred to as “main body 1”) generates so-called oxygen-enriched air that increases the concentration of oxygen in the air sucked into the main body 1. An oxygen-enriched film unit 2 that is an oxygen-enriching means is provided in the inside, which is an oxygen-enriched film (not shown). By passing the sucked air through the oxygen-enriched membrane unit 2, the oxygen concentration of the air is increased from the normal 21% before passing (about 79% nitrogen) to about 30% (about 70% nitrogen).

  Further, a fan 12 is provided inside the main body 1 as an intake means for sucking outside air into the main body 1 from an intake port 3 provided on the back surface of the main body 1, and the air sucked by the fan 12 is oxygen-rich. The air that is sent to the chemical membrane unit 2 and does not pass through the oxygen enriched membrane of the oxygen enriched membrane unit 2 is discharged to the outside from the exhaust port 4 provided in the front surface of the main body 1.

  5 is a pump serving as a suction means for sucking a part of the air sucked into the main body 1 through the oxygen-enriched membrane of the oxygen-enriched membrane unit 2, and the discharge side of the pump 5 is provided on the side surface of the main body 1. The discharge unit 6 communicates with the discharge unit 6, and the discharge unit 6 communicates with oxygen-enriched air discharge means 7 for discharging oxygen-enriched air to the user.

  The operation of the pump 5 and the fan 12 is controlled by a substrate 10 which is a control means arranged in the main body 1. An operation unit 15 is provided separately from the main body 1 and serves as an operation unit for performing control operations such as operation and stop of the main body 1. The operation unit 16 is provided in the operation unit 15. Are electrically connected by a wiring cord 14 which is a conductor.

  A rechargeable secondary battery 17 is detachably mounted on the opposite side of the substrate 10 and serves as a power source for the pump 5, fan 12, substrate 10 and the like. Electricity is generated by power from the power means such as the means 35a and the like, and the generated power is used to charge the charging means 18 through the power supply terminal 19 provided on the lower side surface of the main body 1.

  The power supply terminal 19 also serves as a power supply terminal when AC is used as a power supply. As shown in FIG. 10, the power supply terminal 19 has a plug-integrated transformer 21 at one end and an output plug 22 at the other end. By connecting the output plug 22 of the power adapter 20, alternating current can be used as a power source. That is, the control is performed so that the AC power source becomes a power source when the plug portion 21a of the plug-integrated transformer 21 is inserted into an indoor outlet (not shown) and the secondary battery 17 becomes a power source when the plug portion 21a is removed from the outlet. The substrate 10 as means is controlled to be switched. Further, the power supply terminal 19 may be electrically connected to a cigarette lighter in the vehicle, and the vehicle battery may be operated using the vehicle battery as a power source.

  As described above, since the operation unit 15 is disposed separately from the main body 1, control operations such as operation and stop of the main body 1 can be performed from a position away from the main body 1. The main body 1 can be unitized, and can be detachably attached to a baby carriage 40, a bicycle 35, a motor-equipped bicycle (hereinafter referred to as “motorcycle”) 36, etc., which will be described later.

  In the present embodiment, both the second connecting pipe 11 serving as an air passage means for sending oxygen-enriched air and the wiring cord 14 serving as a communication means are provided in the path from the discharge section 6 to the operation section 15 of the main body 1. A tubular piping member 23 is used for simultaneous wrapping.

  As shown in FIG. 5, the outlet A24 of the wiring cord 14 of the main body 1 is in the vicinity of the discharge portion 6 of the main body 1 and the vicinity of the connection port 26 to which the second connecting pipe 11 of the operation portion 15 is connected. Are provided with an outlet B25 of the wiring cord 14 of the operation unit 15, respectively. The piping member 23 is formed of a bellows-like tube, and is engaged and fixed to the uneven portion 27 formed in the main body 1 and the operation unit 15.

  As shown in FIG. 2, a slit 28 is provided in the entire longitudinal direction of the piping member 23, and the second connecting pipe 11 and the wiring cord 14 are connected to the piping member 23 between the operating means 15 and the main body 1. The storing operation is performed by expanding the slit 28 and sequentially pushing the second connecting pipe 11 and the wiring cord 14 into the piping member 23 from the gap.

  6-9, 29 is an attachment tool for attaching the operation part 15 to the handle part 37, such as the baby carriage 40, the bicycle 35, the motorcycle 36, etc., and is rotatable to the attachment part 30 provided in the operation part 15. It is attached. Reference numeral 31 denotes a holding portion for hooking and holding the oxygen-enriched air discharge means 7 when it is not used, and is provided integrally with the mounting portion 30 of the operation portion 15.

  Reference numeral 32 denotes an operation switch provided in the operation unit 15, and 33 denotes a lamp which is also provided in the operation unit 15 and displays an operation time by a selected timer (not shown) or an energization state of the blowing operation. It is. Reference numeral 34 is a display lamp that is also provided in the operation unit 15 and serves as an informing means that lights and displays only when so-called oxygen-enriched air having a high oxygen concentration is being supplied. In the form, it is configured to glow green.

  On the other hand, as shown in FIG. 6, the oxygen-enriched air discharge means 7 includes a headset 8 that is hung around the user's ear and neck, and is provided at a part of the headset 8 so as to be rotatable or tiltable. The mouse 9 is adjustable in position, and is composed of a first connecting pipe 13 which is made of a soft body so as to be deformable and has one end connected to the operation unit 15 and communicating with the mouse 9.

  The second connecting pipe 11 and the mouse 9 connected as air passage means between the discharge part 6 and the operating part 15 of the main body 1 communicate with each other in the operating part 15 via the first connecting pipe 13. The oxygen-enriched air discharged from the discharge unit 6 is discharged from the mouse 9 to the user's mouth.

  FIG. 7 shows an example in which the oxygen-enriching machine in the present embodiment is mounted on a motorcycle 36. In this example, the oxygen-enriched air discharge means 7 for discharging oxygen-enriched air to a user is used for a motorcycle. The mouse 9 is provided on a part of the helmet 38 so as to be rotatable or tiltable, and the position of the mouse 9 can be adjusted at the user's mouth. The mouse 9 is made of a soft body so that it can be deformed. The oxygen-enriched air discharged from the discharge portion 6 of the main body 1 is discharged from the mouse 9 to the user's mouth, thereby the headset 8. Is provided separately from the helmet 38 and is not required to be worn by the user, and is very easy to use and easy to use.

  FIG. 8 shows an example in which the oxygen enrichment machine according to the present embodiment is mounted on the bicycle 35. FIG. 9 shows the oxygen enrichment apparatus according to the present embodiment mounted on a baby carriage 40 that is one of the wheelbarrows. An example is shown.

  FIG. 11 shows another example of the configuration of the oxygen enricher in the present embodiment, in which an operation unit 15 which is an operation means is disposed separately from the main body 1, and the operation unit 15 and the main body are arranged. The second connecting pipe 11 that connects the two is detachably connected to the main body 1 and / or the operation unit 15. Note that a connection portion may be further provided in the middle of the second connection pipe 11 so as to be detachably connected.

  A wiring cord 14, which is a communication means for connecting the operation unit 15 and the main body 1, is detachably connected to the main body 1 and / or the operation unit 15. Note that a connecting portion may be further provided in the middle of the communication means 14 so as to be detachably connected.

  FIG. 12 shows another configuration example of the oxygen enricher in the present embodiment, and transmits or transmits / receives a control signal from the operation unit 15 which is an operation means arranged separately from the main body 1. The control means 39 is separately provided in the main body 1.

  FIG. 13 shows another configuration example of the oxygen enricher in the present embodiment. The operation unit 15 that is an operation means is separated from the main body 1 and the oxygen-enriched air is separated from the main body 1 to the second. In the form in which the user can suck through the oxygen air discharge means 7 communicated with the connecting pipe 11, the headset 8 as the oxygen air discharge means 7 and the operation unit 15 are provided separately.

  Next, the operation of the oxygen enricher based on the above configuration will be described.

  When the operation switch 32 of the operation unit 15 is turned ON, the control means (the substrate 10, the operation substrate 16 or the control means 39) for supplying the operation power to the pump 5 is activated, the lamp 33 indicating the energized state is turned on, and the timer The pump 5 operates and the fan 12 is activated according to the time set in (1). When the fan 12 is operated, outside air is sucked from the intake port 3 provided in the main body 1, and this outside air passes through the oxygen-enriched membrane unit 2 and is discharged from the exhaust port 4 to the outside of the main body. On the other hand, when the outside air passes through the oxygen-enriched membrane unit 2, part of the air is sucked into the oxygen-enriched membrane unit 2 by the operation of the pump 5, and oxygen is enriched from where oxygen easily passes. Air. The oxygen-enriched air is sent to the discharge unit 6 and is discharged from the discharge unit 6.

  The oxygen-enriched air discharged from the discharge unit 6 is discharged from the mouse 9 of the headset 8 through the first connection pipe 13. Therefore, the user sets the headset 8 on the head, moves the mouse 9 which is provided so as to be rotatable or tiltable and can be adjusted in position to the user's mouth, and moves the mouse 9 closer to the user's mouth and nose. The oxygen-enriched air discharged from the mouth can be sucked from the mouth and nose.

  As described above, according to the present embodiment, the main body 1 and the operation unit 15 are provided in the motorcycle 36 that is a device that rotates a wheel by a prime mover (not shown) that is a power means, and can be charged. Since the battery 17 is included in the main body 1, and the charging means 18 for generating power from the power from the motor of the motorcycle 36 and charging the secondary battery 17 with the generated power is provided, the power from the motor Because the charging means 18 can generate power and charge the secondary battery 17 while moving outdoors, it is not necessary to use a power source and is very easy to use outdoors. Can be used.

  Also, the main body 1 and the operation unit 15 are provided in a bicycle 35 that is a device that travels by rotating a wheel 36a when a person stepping on a stepping means 35a such as a pedal, and a rechargeable secondary battery 17 is provided in the main body 1. The charging means 18 is provided for generating power by the power from the stepping means 35a of the bicycle 35 and charging the secondary battery 17 with the obtained generated power. Therefore, the charging means 18 can generate power and charge the secondary battery 17 while moving outdoors, so no power source is required, it is very easy to use outdoors, and it can be used freely even outdoors or outdoors where commercial power is not available. it can.

  In addition, the main body 1 and the operation unit 15 are provided in a baby carriage 40 that is a handcart that is pushed and pulled by a user to rotate the wheel 40a and travel, and a rechargeable secondary battery 17 is included in the main body 1, and the baby carriage is provided. Since there is provided charging means 18 for generating power by the power from the rotating body 41 linked to the 40 wheels 40a and charging the secondary battery 17 with the obtained generated power, the rotation linked to the wheels 40a of the baby carriage 40 is provided. Since the power from the body 41 generates power and charges the secondary battery 17 by the charging means 18 while moving outdoors, it is unnecessary to use a power source and is very easy to use outdoors, and a commercial power source cannot be obtained. You can use it freely while you are traveling.

  Further, the operation unit 15 is separated from the main body 1, and the board 10 as the control means in the main body 1 and the operation board 16 in the operation unit 15 are connected by the wiring cord 14 so that the remote operation can be performed. Control operations such as operation and stop of the main body 1 can be performed from a distance from the remote control, and it can be operated at hand of the user and is very easy to use.

  In addition, by providing the operation unit 15 in the handle portion 37 of the baby carriage 40, the bicycle 35, or the motorcycle 36, the driving operation of the baby carriage 40, the bicycle 35, or the motorcycle 36 is performed, and at the same time, the operation of the main body 1 is performed immediately by the user. It can be operated and is very easy to use.

  Further, since the operation unit 15 is provided with the lamp 33 and the display lamp 34 for displaying the operation state of the main body 1, the operation state of the main body 1 can be easily confirmed only by confirming the operation unit 15. At this time, the display lamp 34 provided in the operation unit 15 is lit in green when a timer is set and oxygen-enriched air is discharged. Since this green gives a sense of security and peace of mind from an ergonomic point of view, the user can feel relaxed by seeing this.

  Further, when the user does not set the timer and only the operation switch 32 is turned ON, only the fan 12 starts to operate and oxygen-enriched air is not supplied. However, the user does not turn on the display lamp 34. You can know this. In other words, since the display lamp 34 is lit only when oxygen-enriched air is being discharged, the user or a person nearby can reliably know that this oxygen-enriched air is being discharged. . In particular, in this embodiment, the display lamp 34 displays the operating state of the pump 5, so that the failure and abnormality of the pump 33 and the operation circuit system of the pump 33 can be accurately known.

  In the above embodiment, as the oxygen-enriched air discharge means 7, the headset 8 that the user wears on the head is exemplified, but the present invention is not limited to this, and a type that is applied to the neck or shoulder is also possible. There is no hindrance, and there is no hindrance even if it is a type that wraps around a part of the arm or torso with Velcro (registered trademark) etc., and there is no hindrance even if it is a type that fastens with a pin etc. on a part of clothing such as a tie, Of course, there is no problem even if it is a type that covers a part of the face using ears or the like like a dust mask.

  Further, in the above embodiment, the display lamp 34 which is a notification means is constituted by an LED, but it may be a lamp or the like, and may be notified by changing the brightness or blinking instead of lighting. Any configuration may be used as long as it achieves the intended purpose.

  Further, as shown in FIG. 11, an operation unit 15 that is an operation means is arranged separately from the main body 1 so that control operations such as operation and stop of the main body 1 can be performed from a position away from the main body 1. Therefore, the operation unit 15 and the main body 1 can be unitized, and can be used by being detachably attached to the baby carriage 40, the bicycle 35, the motorcycle 36, or the like.

  Further, since the second connecting pipe 11 that connects the operation unit 15 and the main body 1 is detachably connected to the main body 1 and / or the operation unit 15, The connection process between the main bodies 1 can be easily performed. Furthermore, if a connecting portion is provided in the middle of the second connecting pipe 11 so as to be detachably connected, the operation of connecting the operation portion 15 and the main body 1 can be performed more easily.

  Further, since the wiring cord 14 which is a communication means for electrically connecting the operation unit 15 and the main body 1 is detachably connected to the main body 1 and / or the operation unit 15, The wiring process between the main bodies 1 can be easily performed. Furthermore, if a connection part is provided in the middle of the wiring cord 14 so that it can be detachably connected, the workability of the wiring process between the operation part 15 and the main body 1 is further improved.

  In addition, as shown in FIG. 12, by separately providing a control means 39 in the main body 1 for transmitting or transmitting a control signal from the operation unit 15 which is an operating means arranged separately from the main body 1, the main body 1 is provided. The operation unit 15 separated from the above can be reduced in size. Further, the control means 39 in the main body 1 and the operation unit 15 separated from the main body 1 can be wireless, and control operations such as operation and stop of the main body 1 can be performed from a position away from the main body 1.

  Further, as shown in FIG. 13, the operation unit 15 is separated from the main body 1 and the user can suck the oxygen-enriched air from the main body 1 through the oxygen air discharge means 7 communicating with the second connecting pipe 11. By separately providing the headset 8 which is the oxygen air discharge means 7 and the operation unit 15, control operations such as operation and stop of the main body 1 can be remotely operated from a position away from the main body 1.

  As described above, the oxygen enricher according to the present invention is extremely useful because it can be used while traveling outdoors where commercial power is not available, for example, while traveling on bicycles, motorcycles (motorcycles), and the like. is there.

The front view of the main body of the oxygen enricher in the 1st Embodiment of this invention Side view of the main body (A) Back view of the main body, (b) Back view of the main body with its outer parts removed Side sectional view of the main body Cross section of the operation part of the oxygen enricher Perspective view of the operation unit of the oxygen enricher External perspective view showing a state where the oxygen enricher is attached to a motorcycle External perspective view showing a state where the oxygen enricher is attached to a bicycle External perspective view showing a state where the oxygen enricher is attached to the baby carriage Side view of the power adapter of the oxygen enricher Schematic configuration diagram showing another configuration example of the oxygen enricher Schematic configuration diagram showing another configuration example of the oxygen enricher Schematic configuration diagram showing another configuration example of the oxygen enricher Cross section of a conventional oxygen enricher

Explanation of symbols

1 Oxygen enrichment machine (main unit)
2 Oxygen-enriched membrane unit (oxygen-enriching means)
3 Intake port 4 Exhaust port 5 Pump (suction means)
6 Discharge part 7 Oxygen-enriched air discharge means 10 Substrate (control means)
11 Second connecting pipe (connecting pipe)
13 First connecting pipe (connecting pipe)
14 Wiring cord 15 Operation part (operation means)
16 Operation board 17 Secondary battery 18 Charging means 35 Bicycle 36 Motorcycle 36a Wheel 38 Helmet 40 Baby carriage (handcart)

Claims (14)

It is mounted on a device that travels on wheels that are rotated by power means, and has a main body that incorporates oxygen-enriching means, a discharge unit that discharges oxygen-enriched air generated by the oxygen-enriching means, and the connection pipe through the connecting pipe. An oxygen-enriched air discharge unit that communicates with the discharge unit and supplies oxygen-enriched air to the user, and an operation unit that controls the operation of the main body, and is accompanied by power from the power unit or rotation of the wheel An oxygen enricher that generates power by power and supplies the generated power to the main body. The oxygen enricher according to claim 1, further comprising: a rechargeable secondary battery; and charging means for charging the secondary battery with power generated by power from power means or power generated by rotation of a wheel. The oxygen enricher according to claim 1, which is mounted on a device using a prime mover as a power means. The oxygen-enriching device according to claim 3, further comprising a rechargeable secondary battery and a charging unit that generates power by power from a prime mover and charges the secondary battery with the generated power. The oxygen enricher according to claim 1, wherein the oxygen enricher is mounted on an apparatus using a stepping means that a person on board steps with a foot as a power means. The oxygen-enriching machine according to claim 5, further comprising a rechargeable secondary battery and a charging means for generating power by power from the stepping means and charging the secondary battery with the generated power. The oxygen enricher according to any one of claims 1 to 6, wherein the oxygen-enriched air discharge means is provided in a helmet worn by a user. The oxygen enricher according to claim 1, wherein the oxygen enricher is mounted on a handcart that travels on a wheel that rotates using a push-pull operation by a user as a power means. The oxygen-enriching device according to claim 8, wherein a rechargeable secondary battery is provided, the power is generated by the power accompanying the rotation of the wheel, and the secondary battery is charged with the generated power. The oxygen enricher according to any one of claims 1 to 9, wherein the operation means is separated from the main body, and the operation means is provided in a handle portion provided in a device that travels by a wheel. The oxygen enricher according to any one of claims 1 to 10, wherein the operation means and the main body are unitized, and the operation means and the main body are detachably attached to a device that travels by a wheel. The oxygen enricher according to any one of claims 1 to 11, wherein a control means for transmitting or transmitting / receiving a control signal from the operation means is arranged in the main body and / or the operation means. The oxygen according to any one of claims 1 to 12, further comprising: a wiring cord that electrically connects the operating means and the main body, wherein the wiring cord and the main body and / or the operating means are detachable. Enrichment machine. The oxygen enricher according to any one of claims 1 to 13, wherein the connecting pipe is detachable from the main body and / or the oxygen-enriched air discharge means.

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