JP3229552U - Pressure vessel type hydrogen gas storage device capable of inhaling hydrogen gas, pressure vessel type hydrogen gas inhalation device using it, connection tool used for those devices - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pressure vessel type hydrogen gas storage device capable of effectively utilizing an expensive hydrogen gas generator more than the original hydrogen gas supply capacity by a large number of people without exclusively using the expensive hydrogen gas generator, and a pressure vessel type using the pressure vessel type hydrogen gas storage device. Provide a hydrogen gas inhalation device. SOLUTION: A pressure vessel type hydrogen gas storage device 1 is connected to a separate hydrogen gas generator, filled with hydrogen gas generated by the pressure vessel type hydrogen gas storage device 1, and stored while being controlled within a specified internal pressure range. It is a pressure vessel type hydrogen gas storage device that can be sucked. In addition, hydrogen gas can be generated by mixing the hydrogen gas generating agent charged inside the hydrogen gas generating agent with water, and can be stored as it is or inhaled. Further, the pressure vessel type hydrogen gas suction device is obtained by combining the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator as a set of devices. [Selection diagram] Fig. 1

Description

It is a technology related to inhalation of hydrogen gas in the fields of medical treatment and health promotion.

In recent years, the role of hydrogen has been emphasized in the fields of medicine and health promotion.
In the medical field, hydrogen gas inhalation therapy for patients after cardiac arrest outside the hospital is currently being implemented at university hospitals, etc. all over the country with the approval of advanced medical care by the Ministry of Health, Labor and Welfare.
In the field of health promotion, a large number of products are actually manufactured and sold regarding the production and intake of hydrogen gas and hydrogen water obtained by dissolving it in drinking water. In addition, various proposals have been made regarding the efficiency of transportation methods for the effective utilization of hydrogen gas in society.
Regarding the generation of hydrogen gas, it is generally known that water is electrolyzed into hydrogen and oxygen and then membrane separated, and that water and a hydrogen gas generating agent are mixed and generated by a chemical reaction. Further, regarding the generation of hydrogen water, many methods have been proposed, including the invention of Patent Document 1, in which the dissolution rate of hydrogen gas is increased by expanding the contact area between water and hydrogen gas. Patent Document 1 also proposes a gas-filled delivery system for hydrogen containers, and in other documents, regarding the transportation of hydrogen gas in a gas cylinder, improvement of transportation efficiency is achieved by using a hydrogen storage alloy that adsorbs hydrogen gas. A method to try to plan has been proposed and has already been implemented.

JP-A-2018-199121

A hydrogen gas generator that can efficiently and continuously generate a large amount of hydrogen gas by electrolysis of water, etc. (There is also a product that can be carried out in a series from the generation of hydrogen gas to the inhalation. In distinction from the simple "hydrogen gas inhalation device", hereinafter referred to as "hydrogen gas generator"), in addition to medical institutions working on advanced medical care, in recent years, it has been actively used in general households who are highly interested in improving health. It has been adopted and used as a target. However, in general, there are many expensive hydrogen gas generators, which are specialized equipment, because of their extremely high performance. Therefore, as a substitute for such an expensive hydrogen gas generator, water and a hydrogen generator can be mixed in a small container to easily generate hydrogen gas, and hydrogen gas can be inhaled on the spot. In many cases, an inexpensive hydrogen gas inhaler is used.
As described above, many of the former hydrogen gas generators have very high performance, and it is possible to easily and continuously generate a large amount of hydrogen gas at any time, which is a very convenient device. However, since many of these hydrogen gas generators are expensive, it is not realistic to prepare one for each person, especially in ordinary households. In addition, it cannot be denied that the low portability of the device itself is also a disadvantage of the device.
On the other hand, the latter light hydrogen gas inhalation device is often cheaper than the former, is small and lightweight, and is highly portable. By mixing water and a chemical, hydrogen gas is easily generated, and the hydrogen gas is easily generated. It can be inhaled in the field. However, there are many inconveniences compared to the former, such as the fact that it is difficult to temporarily stop the inhalation of hydrogen gas by stopping the reaction of the drug that started once due to the limitation of the hydrogen gas generation time. I have to admit it.
Therefore, the inventor uses the pressure vessel type hydrogen gas storage device according to the present invention and the device as a device capable of compensating for the shortcomings of both devices and connecting them to achieve both the advantages of both devices. We devised a pressure vessel type hydrogen gas suction device.

The outline of the pressure vessel type hydrogen gas storage device and the pressure vessel type hydrogen gas suction device using the pressure vessel type hydrogen gas storage device is as follows.
It can be connected to a separate hydrogen gas generator to fill the pressure vessel with the hydrogen gas generated by it, and the internal pressure of the pressure vessel is controlled and stored within the specified numerical range, and hydrogen is stored. It is a pressure vessel type hydrogen gas storage device that can also inhale gas. In addition, a pressure vessel type hydrogen gas storage device that can generate hydrogen gas by pouring water and a hydrogen gas generating agent into the pressure vessel and mixing them, and can store or inhale as it is. did.
As a specific configuration of this pressure vessel type hydrogen gas storage device, a pressure vessel having an opening mechanism capable of charging a hydrogen gas generating agent or the like, a hydrogen gas filling device which is an accessory device of the pressure vessel, and an internal pressure adjusting device , Each device of the hydrogen gas release device will be provided.
The hydrogen gas filling device is arbitrarily connected to the hydrogen gas generator and has a function of filling the pressure vessel with the hydrogen gas generated by the hydrogen gas generator. The pressure vessel can be filled with hydrogen gas generated by an external hydrogen gas generator, and can also store the hydrogen gas generated by the hydrogen gas generator charged inside the pressure vessel as it is. .. In addition, the internal pressure adjusting device has a function of automatically adjusting the internal pressure increased by filling the pressure vessel with hydrogen gas within a specified numerical range. The hydrogen gas release device includes a flow rate adjusting mechanism for releasing hydrogen gas stored in a pressure vessel.
The user appropriately operates the flow rate adjusting mechanism, whereby the flow rate of hydrogen gas including the start or stop of discharge is adjusted. Then, a pressure vessel type hydrogen gas storage device is obtained in which the user inhales hydrogen gas from a tube connected to the hydrogen gas release device by an inhalation means such as an inhalation mask or a nasal cannula.
In addition, these specifications have been optimized in advance so that the connection and transportation between the separate hydrogen gas generator and the pressure vessel type hydrogen gas storage device of the present invention can be made easier, and the hydrogen gas generator and pressure The pressure vessel type hydrogen gas suction device can be integrated with the container type hydrogen gas storage device. As a matter of course, even in this case, it is possible to arbitrarily separate the hydrogen gas generator and the pressure vessel type hydrogen gas storage device to inhale the hydrogen gas.
That is, it is possible to fill the pressure vessel type hydrogen gas storage device with the hydrogen gas generated by the hydrogen gas generator, move it to another place, and inhale the hydrogen gas at different times and places. .. The internal pressure in the pressure vessel is safely maintained by the internal pressure adjusting device so as not to exceed a specified specified value. Then, by operating the flow rate adjusting mechanism of the hydrogen gas discharge device, the user can inhale the hydrogen gas while relaxing and relaxing while adjusting the flow rate of the released hydrogen gas according to his / her preference. ..
At this time, it is also possible to provide an internal pressure measuring mechanism that measures and displays the internal pressure of the pressure vessel type hydrogen gas storage device at any time so that the user can know it correctly in a timely manner. Further, it is also possible to provide a flow rate measuring mechanism for measuring and displaying the flow rate of the suction hydrogen gas discharged from the hydrogen gas discharging device so that the flow rate can be known in a timely manner.
In addition, the inventor has devised a pressure vessel type hydrogen gas storage device and a pressure vessel type hydrogen gas suction device, in order to easily and surely connect the hydrogen gas generator and one or more pressure vessel type hydrogen gas storage devices. We also devised a connector that has the connection mechanism of. The three points of the hydrogen gas generator, the connector, and the pressure vessel type hydrogen gas storage device that can be connected and disconnected arbitrarily by the connector become a set of pressure vessel type hydrogen gas suction device, and hydrogen gas. The connection and separation between the generator and the pressure vessel type hydrogen gas storage device will be easier. At the same time, if necessary, a single hydrogen gas generator can fill a plurality of pressure vessel type hydrogen gas storage devices in parallel with each other.

If there is an existing hydrogen gas generator, by filling multiple pressure vessel type hydrogen gas storage devices prepared separately with hydrogen gas, multiple users can freely use hydrogen gas at their own favorite time and place. Can be inhaled. This also means that the hydrogen gas generated by the hydrogen gas generator is not released to the outside air on the spot, but is temporarily stored in the pressure vessel type hydrogen gas storage device and can be consumed in large quantities over time. .. Therefore, when the user needs it, the hydrogen gas can be used far beyond the original hourly supply capacity of the hydrogen gas generator. For this reason, it is possible for a large number of people to make more effective use of hydrogen gas than the original hydrogen gas supply capacity without having to monopolize an expensive hydrogen gas generator by themselves, and hydrogen is more effective than ever at home and at work. There is a high possibility that the place for gas utilization will expand.
In addition, even if the hydrogen gas generator does not exist, or even if it does exist, it cannot be operated due to a power failure such as a disaster, water and the hydrogen gas generator are put into the pressure vessel type hydrogen gas storage device. , Hydrogen gas can be generated immediately on the spot. In a conventional hydrogen gas inhaler using a hydrogen gas generating agent, it is difficult to store hydrogen gas under pressure, the amount of hydrogen gas that can be stored inside the device is limited, and the usage time is also limited. Then, during the generation of hydrogen gas, the user has only the alternative option of continuing the inhalation of hydrogen gas to the end, or stopping the inhalation in the middle if for some reason it cannot be done. It was a situation that could not exist. However, in the pressure vessel type hydrogen gas storage device of the present invention, even when the inhalation of hydrogen gas is stopped, the hydrogen gas continues to be stored inside the pressure vessel type hydrogen gas storage device at a relatively high internal pressure, so that when it becomes convenient later, etc. In addition, the user can resume the inhalation of hydrogen gas.
Further, the pressure vessel type hydrogen gas storage device of the present invention is often more portable than the existing hydrogen gas generator. Therefore, this pressure vessel type hydrogen gas storage device that can inhale hydrogen gas can be used not only for inhaling hydrogen gas at home or at work, but also for connecting it to a pet sheet to allow dogs and cats to inhale hydrogen gas. It is possible. Then, this pressure vessel type hydrogen gas storage device can be transported to the bathroom, and the hydrogen gas released from the pressure vessel type hydrogen gas storage device can be dissolved in the hot water of the bathtub and used for bathing as a hydrogen bath or the like.
In addition, this simple and easy device enables more flexible utilization of hydrogen gas in fields such as emergency medical care and dental care.

It is a single pressure vessel type hydrogen gas storage device. It is a state in which a pressure vessel type hydrogen gas storage device and a hydrogen gas generator are combined. It is a pressure vessel type hydrogen gas inhaler with an integrated hydrogen gas generator. It is a state in which two pressure vessel type hydrogen gas storage devices and a hydrogen gas generator are combined. It is a state in which two pressure vessel type hydrogen gas storage devices and a hydrogen gas generator are combined by using a connector. This is an example of an opening mechanism in a pressure vessel. This is another example of the opening mechanism in a pressure vessel.

Hereinafter, description will be given with reference to figures.
The pressure vessel type hydrogen gas storage device 1 as a single device has the configuration shown in FIG.
The pressure vessel type hydrogen gas storage device 1 is configured around a pressure vessel 2 provided with an opening mechanism 2-1 at a position at a middle height thereof. Further, the pressure vessel 2 has, as an accessory device, a hydrogen gas filling device 3 having a connection mechanism with the hydrogen gas generating device 6, an internal pressure adjusting device 4 having an internal pressure measuring mechanism 4-1 and a flow rate adjusting mechanism 5-. It has 1 and a hydrogen gas release device 5 including a flow rate measuring mechanism 5-2.

In the pressure vessel type hydrogen gas storage device 1, the pressure vessel 2 at the center thereof serves as a main body device for safely storing the hydrogen gas inhaled by the user so as not to exceed a predetermined internal pressure. It is a thing.
With regard to the outer shape and size of the pressure vessel 2, various types of pressure can be obtained by appropriately changing the design, such as by devising the portability and appearance design according to the application and fashion. It is possible to use the container-type hydrogen gas storage device 1. Although the pressure vessel type hydrogen gas storage device 1 shown in FIG. 1 does not have a large design feature in its appearance, it is displayed in an easy-to-read manner in order to make the device compact and lightweight and to explain the present invention. For convenience, it is displayed as a very general small cylinder-shaped pressure vessel type hydrogen gas storage device 1. As described above, regarding the pressure vessel type hydrogen gas storage device 1 according to the present invention, from the viewpoint of portability for the user to easily carry and use it, and the safety in handling flammable hydrogen gas. From the viewpoint of emphasizing, it is often regarded as a relatively small one. Therefore, it is considered that the pressure vessel type hydrogen gas storage device 1 is not extremely large, and the width, depth, and height are generally within 20 cm.

Further, as the material of the pressure vessel 2, it is considered that it is common to use an alloy such as steel or a light metal such as aluminum in consideration of the ease of handling and strength such as portability and manufacturing efficiency. .. However, as long as the material has both lightness and strength that meet the conditions of use and the like, there is no major problem in using other materials such as industrial plastics. Then, it is assumed that the pressure vessel 2 can withstand an internal pressure of about 0.98 MPa or more as a guideline.
Further, depending on the material of the pressure vessel 2, the inner surface thereof is coated with an acid-resistant material to provide a protective film against corrosion. This is to avoid the risk that the inside of the pressure vessel 2 is eroded by the chemical reaction of the hydrogen gas generating agent and the pressure vessel type hydrogen gas storage device 1 becomes insufficient in strength.

Here, FIG. 2 shows a state in which a single pressure vessel type hydrogen gas storage device 1 and an existing hydrogen gas generator 6 which is a separate body thereof are combined by a connection mechanism of a hydrogen gas filling device 3. Shown. This represents a scene of the usage state of the pressure vessel type hydrogen gas storage device 1 of FIG. That is, the hydrogen gas filling device 3 of the pressure vessel type hydrogen gas storage device 1 according to the present invention is provided with the hydrogen of the hydrogen gas generating device 6 so as to match the position and structure of the hydrogen gas discharging portion of the hydrogen gas generating device 6. A connection mechanism with a gas discharge unit is provided. FIG. 2 shows a state in which the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator 6 are connected and integrated by the connection mechanism, and the hydrogen gas generator 6 to the pressure vessel type hydrogen gas storage device 1 It represents a situation in which hydrogen gas is filled in the pressure vessel 2 of the above.
The connection mechanism of the hydrogen gas filling device 3 allows the user to arbitrarily release the connection state except when the pressure vessel 2 is filled with hydrogen gas. That is, the connection between the two devices as shown in FIG. 2 may be appropriately performed only when necessary, such as when the hydrogen gas generator 6 fills the pressure vessel type hydrogen gas storage device 1 with hydrogen gas. And usually, both of these devices are disconnected, and the separated devices may be used individually in other places.

In addition, this FIG. 2 can be viewed from a different point of view. That is, it is a view that the device of FIG. 2 is regarded as a pressure vessel type hydrogen gas storage device 1 and a hydrogen gas generator 6 forming a set of a pressure vessel type hydrogen gas suction device 7 as a whole.
In this case, the outer shape of the pressure vessel type hydrogen gas storage device 1 which is a component of the pressure vessel type hydrogen gas suction device 7, the position of the hydrogen gas filling device 3, the connection mechanism, etc., are the same as those of the hydrogen gas generator 6 in advance. Designed to fit optimally. The pressure vessel type hydrogen gas storage device 1 is a set of hydrogen gas as a whole including the hydrogen gas generator 6 of FIG. 2 in order to improve the convenience of connection between the devices and transportation of the devices. It is a part of the pressure vessel type hydrogen gas suction device 7 of the generator integrated type (hereinafter, referred to as “generator integrated type”).
In the pressure vessel type hydrogen gas suction device 7 integrated with the generator, the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator are appropriately used according to the user's request and the need for maintenance at that time. It is used by connecting with 6 or separating both.
For this reason, FIG. 2 is a diagram showing the usage status of the single pressure vessel type hydrogen gas storage device 1 of FIG. 1, and at the same time, a part thereof is a single pressure vessel type hydrogen gas storage device. It can also be seen as an illustration of the overall configuration of the pressure vessel type hydrogen gas suction device 7 integrated with the generator including 1 and the hydrogen gas generator 6.
This also applies to FIG. 3, which is a diagram showing the usage status of the single pressure vessel type hydrogen gas storage device 1 and the generator integrated type which is a set including the hydrogen gas generator 6. It is an example of the pressure vessel type hydrogen gas suction device 7, and it can be understood that the shape and the like are different from those in FIG.

By the way, in the description of the present invention, as shown in FIGS. 2 and 3, the applicant includes a pressure vessel type hydrogen gas storage device 1 and a hydrogen gas generator 6 in the configuration, and the pressure forming the device. The container-type hydrogen gas suction device 7 is referred to as a pressure vessel-type hydrogen gas suction device 7 integrated with a generator. From the configuration and function of the pressure vessel type hydrogen gas storage device 1 of FIG. 1, this can also be understood as a stand-alone type and pressure vessel type hydrogen gas suction device. This is because it can be positioned as the same type of device while distinguishing it from the composite device of FIGS. 2 and 3.
In the pressure vessel type hydrogen gas suction device 7 integrated with the generator of FIG. 3, the pressure vessel type hydrogen gas storage device 1 is opposed to each other so as to fit inside the hydrogen gas generator 6 and be stored well. The shape of the part and the position and structure of the connection mechanism are adjusted in advance. Further, on the front surface of the pressure vessel type hydrogen gas storage device 1, a small handle is arranged on the left side of the hydrogen gas discharge device 5 as a means for attaching and detaching the hydrogen gas storage device 1 from the hydrogen gas generator 6. It may be something like a dent that serves as a clue.
And in this FIG. 3, unlike FIG. 2, the hydrogen gas filling device 3 is not displayed. This is because the hydrogen gas filling device 3 and the hydrogen gas discharging part of the hydrogen gas generating device 6 are connected by a connecting mechanism inside the hydrogen gas generating device 6, so that the pressure vessel type hydrogen gas suction device 7 of FIG. This is because it is not exposed as the appearance of.

Then, the hydrogen gas generated by the hydrogen gas generator 6 separate from the pressure vessel type hydrogen gas storage device 1 is produced by the hydrogen gas filling device 3 connected to the hydrogen gas generator 6 as shown in FIG. , The inside of the pressure vessel 2 which is the main body of the pressure vessel type hydrogen gas storage device 1 is filled. In this way, the hydrogen gas filling device 3 functions as a hydrogen gas injection plug.
On the other hand, during the filling of hydrogen gas, the connection between the hydrogen gas generator 6 and the pressure vessel type hydrogen gas storage device 1 is carelessly disconnected, and the pressure vessel type hydrogen gas storage device 1 is disconnected from the hydrogen gas generator 6. It is necessary to take care so that the gas does not pop out vigorously and hydrogen gas does not leak to the surroundings. Therefore, the hydrogen gas generator 6 and the hydrogen gas filling device 3 can be easily connected, but are securely and closely connected by a connecting mechanism so as not to be unintentionally disconnected, and a safe state is maintained.
The pressure vessel type hydrogen gas storage device 1 of the present invention may adopt various mechanisms as its connection mechanism. As an example, a screw structure is provided at the joint portion of the hydrogen gas discharging portion of the hydrogen gas filling device 3 and the hydrogen gas generating device 6 so as to be compatible with each other so that the two are firmly assembled and connected. Then, it is conceivable to incorporate a gas leak prevention packing around the joint so that hydrogen gas does not leak from the minute gap between the gaps. Further, it is assumed that the connection mechanism is provided with a fixing means such as a buckle to more reliably fix the two.
Further, as another proposal of this connection mechanism, it is conceivable to adopt an off-the-shelf product or the like which is generally collectively called a one-touch joint and is manufactured and sold. This also applies to the connection mechanism of the connector 8 described later and the connection method of the hydrogen gas discharge device 5 and the tube or the like.

By the way, the pressure vessel type hydrogen gas storage device 1 and the pressure vessel type hydrogen gas suction device 7 of the present invention are safely used within the range so as not to exceed a predetermined internal pressure subject to the regulation of the law. It is premised on that.
Therefore, in order to automatically suppress the internal pressure of the pressure vessel type hydrogen gas storage device 1 from the side of the pressure vessel type hydrogen gas storage device 1 so that the internal pressure of the pressure vessel 2 does not exceed a designated value set in advance as an upper limit value. The control operation shall be performed in a timely manner. The internal pressure adjusting device 4 fulfills the control function.
In addition, although it is not essential, the state of the internal pressure of the pressure vessel 2 is an important index for the user to constantly check and maintain the safe use state of the pressure vessel type hydrogen gas storage device 1 and the like. The internal pressure measuring mechanism 4-1 plays a role of informing the user of the above.
A safety valve or the like is used in the internal pressure adjusting device 4, and when the internal pressure exceeds a specified value, excess hydrogen gas is discharged from the inside of the pressure vessel 2 to the outside of the pressure vessel 2 via the internal pressure adjusting device 4. This is to prevent an increase in external internal pressure. For example, when the internal pressure of the pressure vessel 2 is about to reach a value specified in advance such as 0.7 MPa or 0.8 MPa, one of the hydrogen gases stored in the pressure vessel 2 by the action of the internal pressure adjusting device 4. The portion will be automatically discharged to the outside of the pressure vessel 2.
Further, the internal pressure measuring mechanism 4-1 uses a pressure gauge for automatically measuring the internal pressure of the pressure vessel 2 and displaying the value so that the user can recognize it. Therefore, the user of the pressure vessel type hydrogen gas storage device 1 or the pressure vessel type hydrogen gas suction device 7 can know the internal pressure of the pressure vessel 2 in a timely manner as needed.

As shown in FIGS. 2 and 3, the hydrogen gas generated by the hydrogen gas generator 6 and filled in the pressure vessel 2 is in a safe state so as not to exceed a predetermined upper limit of the internal pressure. It is stored in the pressure vessel type hydrogen gas storage device 1. Then, when the user intends to inhale the hydrogen gas stored in the pressure vessel type hydrogen gas storage device 1, the hydrogen gas discharge device 5 moves to the outside of the pressure vessel 2 in response to the operation of the flow rate adjusting mechanism 5-1. It is released.
At this time, the user connects a mask for inhaling hydrogen gas and a tube to which a nasal cannula is connected to the hydrogen gas release device 5 of the pressure vessel type hydrogen gas storage device 1, and uses the mask or the like attached to the pressure vessel type hydrogen. The hydrogen gas released from the gas storage device 1 is inhaled and ingested into its own body.
Even if the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator 6 are still connected by the connection mechanism of the hydrogen gas filling device 3 as shown in FIGS. 2 and 3. , Hydrogen gas can be inhaled. As a matter of course, by canceling this connection mechanism, the pressure vessel type hydrogen gas storage device 1 is removed from the hydrogen gas generator 6 and moved to a place away from the hydrogen gas generator 6 to suck hydrogen gas. It is also possible to do.

The user appropriately operates the flow rate adjusting mechanism 5-1 of the hydrogen gas release device 5 to release hydrogen gas from the pressure vessel type hydrogen gas storage device 1 to a tube or the like connected to the hydrogen gas release device 5. The flow rate of can be changed. The flow rate adjusting mechanism 5-1 can finely adjust the expansion and contraction of the hydrogen gas discharge port of the hydrogen gas discharge device 5, and at the same time, is like an air valve having high airtightness. The user starts the release of hydrogen gas at the start of use, increases or decreases this as desired, and stops the release of hydrogen gas at the end of use. That is, when the user feels that the flow rate of hydrogen gas is too large, the flow rate adjusting mechanism 5-1 is throttled to reduce the amount of hydrogen gas released. On the contrary, when the flow rate is felt to be too small, the flow rate adjusting mechanism 5-1 is loosened to increase the discharge amount.
Further, although it is not essential as in the internal pressure measuring mechanism 4-1 but in order to improve the usability of the pressure vessel type hydrogen gas storage device 1, the user grasps the flow rate of hydrogen gas to some extent correctly. A flow rate measuring mechanism 5-2 is provided in order to use this as a guideline for fine adjustment. The flow rate measuring mechanism 5-2 immediately measures the flow rate of the hydrogen gas released from the hydrogen gas discharging device 5, and the numerical value is displayed to the user. Generally, a gas flow meter can be used as the flow rate measuring mechanism 5-2.

By the way, in the pressure vessel 2 of the pressure vessel type hydrogen gas storage device 1 of FIGS. 1 and 2, most of them have a rectangular shape, and the outer periphery thereof gradually shrinks smoothly and protrudes upward to form a dome shape. Furthermore, it is flat at the center of the upper surface. On the other hand, although the bottom surface of the pressure vessel 2 is not shown, the bottom surface protrudes upward in a dome shape like the upper surface of the pressure vessel 2, and the overall shape is generally the same as that of a normal cylinder type. It is a pressure vessel type hydrogen gas storage device 1 having the appearance of.
FIG. 3 shows that the pressure vessel type hydrogen gas storage device 1 is a hydrogen gas generator when the pressure vessel type hydrogen gas storage device 1 is filled with hydrogen gas from the hydrogen gas generator 6 or when the entire device is transported. It was a pressure vessel type hydrogen gas suction device 7 integrated with a generator, which was designed to be integrated in combination with 6. The outer shape of the single pressure vessel type hydrogen gas storage device 1 as shown in FIG. 1 can be various, but the outer shape of the pressure vessel type hydrogen gas storage device 1 in FIG. 3 has a regular square columnar appearance. It is something to do. Then, it is also possible to extract only this from the hydrogen gas generator 6 and use it in the same manner as the single pressure vessel type hydrogen gas storage device 1 of FIG.

That is, in either of FIGS. 2 and 3, the user can separate and remove the pressure vessel type hydrogen gas storage device 1 in the figure from the pressure vessel type hydrogen gas suction device 7 integrated with the generator. Is. Further, when trying to inhale hydrogen gas, it is possible to keep the connection as shown in FIGS. 2 and 3, and it is easy to connect the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator 6. It is also possible to separate them by releasing them.
The center of the upper surface of the pressure vessel 2 of FIGS. 1 and 2 was a small flat surface, but various devices attached to the pressure vessel 2 are arranged on the flat surface thereof. That is, a hydrogen gas filling device 3 having a connection mechanism with the hydrogen gas generator 6, an internal pressure adjusting device 4 having an internal pressure measuring mechanism 4-1 and a flow rate adjusting mechanism 5-1 and a flow rate measuring mechanism 5-2 were provided. The hydrogen gas discharge device 5 is integrated and arranged. On the other hand, in the pressure vessel type hydrogen gas suction device 7 of FIG. 3, each of these devices is integrated in the front surface of the pressure vessel type hydrogen gas storage device 1. It should be noted that the examples of these arrangements are one way of thinking and design differences regarding the arrangement of each device, and should not be limited to the examples described here.

So far, the configuration and usage of the pressure vessel type hydrogen gas storage device 1, which can be called a single type and pressure vessel type hydrogen gas suction device, have been described. Further, the configuration of the pressure vessel type hydrogen gas suction device 7 integrated with the generator, in which the single pressure vessel type hydrogen gas storage device 1 is combined with the hydrogen gas generator 6 to form a set, will be described. I've been doing it.
Then, in the latter pressure vessel type hydrogen gas suction device 7 integrated with a generator, a single pressure vessel type hydrogen gas storage device 1 is retrofitted to the existing hydrogen gas generator 6 to form a set. A pressure vessel type hydrogen gas suction device 7 with an integrated generator such as No. 2 could be considered.
Further, the pressure vessel type hydrogen gas suction device 7 as shown in FIG. 3, which has specifications in which the combination state of the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator 6 is optimized in advance, is also provided. I have explained what you can think of.
As for the method for generating hydrogen gas in the hydrogen gas generator 6, there is a method in which liquid water is electrolyzed into hydrogen and oxygen, which are gas molecules, and further membrane separated to obtain hydrogen gas. However, the difference in the hydrogen gas generation method in the hydrogen gas generator 6 is not essentially different for the hydrogen gas filled in the pressure vessel type hydrogen gas storage device 1, and is due to a different hydrogen gas generation method. There is no problem.

On the other hand, particularly with respect to the single pressure vessel type hydrogen gas storage device 1, the pressure vessel type hydrogen gas storage device 1 is adapted to the existing hydrogen gas generator 6 having various specifications according to the situation each time. It is desirable that it can be used.
Therefore, one end is provided with a connection mechanism with the hydrogen gas discharge portion of the hydrogen gas generator 6, and the other end is provided with a connection mechanism with one or more pressure vessel type hydrogen gas storage devices 1 and the hydrogen gas discharge device 5. , It is useful to utilize the dedicated connector 8 used for the pressure vessel type hydrogen gas storage device 1 and the like. Then, the user of the pressure vessel type hydrogen gas storage device 1 or the pressure vessel type hydrogen gas suction device 7 can use the connector 8 to use the connection tool 8 to provide the hydrogen gas filling device 3 of the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator. Connect with the hydrogen gas discharge part of 6. That is, the user firmly connects the hydrogen gas generator 6 and the pressure vessel type hydrogen gas storage device 1 via the connecting tool 8 before filling the pressure vessel type hydrogen gas storage device 1 with hydrogen gas. To do.
In this way, the user fills the pressure vessel type hydrogen gas storage device 1 used by himself / herself with the hydrogen gas generated by the various types of hydrogen gas generators 6 via the connector 8. It can be stored.

As described above, the pressure vessel type hydrogen gas storage device 1 and the pressure vessel type hydrogen gas suction device 7 of the present invention may have devices having various different specifications.
As shown in FIGS. 1 and 2, the pressure vessel type hydrogen gas storage device 1 and the existing hydrogen gas generator 6 may be combined ex post facto. Further, as shown in FIG. 3, there is also a pressure vessel type hydrogen gas suction device 7 having a generator integrated type in which the pressure vessel type hydrogen gas storage device 1 and the hydrogen gas generator 6 are designed by being optimized in advance.
Further, in FIG. 2, a state in which one pressure vessel type hydrogen gas storage device 1 and one existing hydrogen gas generator 6 are connected one-to-one is shown.
However, the hydrogen gas generator 6 and the pressure vessel type hydrogen gas storage device 1 may be connected one-to-one in this way, or a plurality of hydrogen gas discharge units may be connected to one hydrogen gas generator 6. If it exists, the connection can be one-to-many. That is, in the example of FIG. 4, one hydrogen gas generator 6 to two pressure vessel type hydrogen gas storage devices 1 can be filled with hydrogen gas in parallel at the same time.
Further, even when a single pressure vessel type hydrogen gas storage device 1 is retrofitted to an existing hydrogen gas generator 6, a plurality of hydrogen gas generators 6 having different specifications are connected to a plurality of hydrogen gas generators 6 via a detachable connector 8. , It is also conceivable to combine as shown in FIG. Note that the connector 8 shown in FIG. 5 can fill two pressure vessel type hydrogen gas storage devices 1 with hydrogen gas in parallel from one hydrogen gas generator 6. This is a branch type connector 8.
Further, with respect to the branch type connector 8 of FIG. 5, for example, the side connected to the hydrogen gas filling device 3 can be provided with flexibility and mobility, and the width of the branch can be freely changed. It is also useful to give versatility so that it can be widely adapted to hydrogen gas generators 6 having different specifications.

In this way, the pressure vessel type hydrogen gas storage device 1 according to the present invention can be a tool for more effectively utilizing the existing hydrogen gas generator 6.
By the way, in the hydrogen gas generator 6, for example, in order to generate hydrogen gas by electrolysis of water, it is naturally necessary to supply water and electricity. They can be stored inside the hydrogen gas generator 6 by a water storage tank, a battery, etc., and water and electricity may be continuously supplied from the outside via a supply line such as a water pipe or an electric wire. ..
On the other hand, the pressure vessel type hydrogen gas storage device 1 is connected to the hydrogen gas generator 6 as shown in FIG. 2, and the hydrogen gas filled therein can be stored inside the pressure vessel 2. At the same time, water and a hydrogen gas generating agent are put into the pressure vessel 2 of the pressure vessel type hydrogen gas storage device 1, the hydrogen gas generated by mixing these is sucked as it is, and the surplus hydrogen gas is stored. It is also possible to do.
Therefore, the pressure vessel type hydrogen gas storage device 1 can select whether to fill the hydrogen gas from the outside of the pressure vessel 2 or to generate the hydrogen gas inside the pressure vessel 2, but in any case. However, it is not a device that uses electric power supplied from inside and outside the device as an indispensable power source.
As described above, in this pressure vessel type hydrogen gas storage device 1, water and a hydrogen gas generating agent are charged into the pressure vessel 2 which is the main body of the pressure vessel and mixed, so that hydrogen is not required inside the pressure vessel type hydrogen gas storage device 1. It can generate gas. Then, the generated hydrogen gas is released from the hydrogen gas discharge device 5 by the internal pressure of the pressure vessel 2, and the user inhales the hydrogen gas or safely stores it in the pressure vessel 2. Therefore, by using this pressure vessel type hydrogen gas storage device 1, there are no restrictions on use depending on the presence or absence of power supply, and the time and place can be freely changed according to the preference and convenience of the user, while relaxing slowly. It is also possible to inhale hydrogen gas.

By the way, in order to charge water or a hydrogen gas generating agent into the pressure vessel type hydrogen gas storage device 1, the pressure vessel 2 needs an opening mechanism 2-1 to open and close the water or hydrogen gas generating agent. Become.
In FIG. 1, as an example thereof, an opening mechanism 2-1 is provided near the middle stage of the pressure vessel 2. FIG. 6 shows a state in which the pressure vessel type hydrogen gas storage device 1 of FIG. 1 is divided into two upper and lower parts by the opening mechanism 2-1. Then, by rejoining these two parts by the opening mechanism 2-1 the user can easily return the two parts to the state shown in FIG.
In the example of the opening mechanism 2-1 of FIG. 6, screw structures are provided on both inner and outer side surfaces of the portions where the upper part and the lower part are joined. Then, a gasket or the like for maintaining the airtightness of the pressure vessel 2 is appropriately arranged so that the hydrogen gas stored inside does not leak when these are combined. In this way, the user divides the pressure vessel 2 into an upper part and a lower part, so that a portion having a large opening above the lower part in FIG. 6 is used as an inlet for water or a hydrogen gas generating agent. It will be available.
That is, the mechanism of separation and joining by the screw structure or the like provided at the joint portion of the upper and lower two parts is an example of the opening mechanism 2-1. When the pressure vessel type hydrogen gas storage device 1 is to be divided into an upper part and a lower part in this way, hydrogen gas is stored in a sealed pressure vessel 2 in a pressurized state. If so, there is a risk that the upper and lower parts will pop out against the user's intention due to the high internal pressure. Therefore, as one of the safety measures, as shown in FIG. 6, a small vertical portion is formed on a part of the screw structure so that a small amount of hydrogen gas can be gradually released to the outside of the pressure vessel 2 according to the looseness of the screw structure. It is conceivable to provide a groove.

Further, FIG. 7 shows a single pressure vessel type hydrogen gas storage device 1 having a shape and the like different from those of FIG. 1, and a pressure vessel type hydrogen gas suction device 7 integrated with a generator shown in FIG. The pressure vessel type hydrogen gas storage device 1 extracted from the above is also illustrated.
In this device, the opening mechanism 2-1 is provided as an opening / closing mechanism 2-1 that can be opened and closed in a part of the upper part of the front surface of the pressure vessel 2. Then, by opening this, an inlet for water and a hydrogen gas generating agent appears. At the same time, the structure is such that the hydrogen gas generated inside the pressure vessel 2 and the charged water do not leak out, and when the pressure vessel 2 is closed, the pressure vessel 2 is tightly locked to maintain high airtightness.

1 Pressure vessel type hydrogen gas storage device 2 Pressure vessel 2-1 Opening mechanism 3 Hydrogen gas filling device 4 Internal pressure adjustment device 4-1 Internal pressure measurement mechanism 5 Hydrogen gas discharge device 5-1 Flow adjustment mechanism 5-2 Flow measurement mechanism 6 Hydrogen Gas generator 7 Pressure vessel type hydrogen gas suction device 8 Connector

Claims (6)

It is a hydrogen gas storage device
It has a pressure vessel equipped with an opening mechanism capable of charging a hydrogen gas generating agent, and each device of a hydrogen gas filling device, an internal pressure adjusting device, and a hydrogen gas discharging device, which are accessories of the pressure vessel.
The hydrogen gas filling device has a connection mechanism with the hydrogen gas generator, and by arbitrarily connecting to the hydrogen gas generator by the connection mechanism, the hydrogen gas generated by the hydrogen gas generator is produced. Fill the pressure vessel and
The pressure vessel can store the hydrogen gas generated and filled by the hydrogen gas generator and the hydrogen gas generated by the hydrogen gas generating agent charged into the pressure vessel. ,
The internal pressure adjusting device controls the internal pressure of the pressure vessel within a range of specified numerical values.
The hydrogen gas release device includes a flow rate adjusting mechanism for releasing the hydrogen gas stored in the pressure vessel, and includes starting or stopping the release of hydrogen gas by the user operating the flow rate adjusting mechanism. The flow rate has been adjusted,
The user can inhale hydrogen gas from the hydrogen gas release device in either a state of being connected to the hydrogen gas generator or a state of being disconnected from the hydrogen gas generator. A pressure vessel type hydrogen gas storage device characterized by being. The internal pressure adjusting device includes an internal pressure measuring mechanism for measuring and displaying the internal pressure of the pressure vessel.
The pressure vessel type hydrogen gas storage device according to claim 1, wherein the hydrogen gas release device includes a flow rate measuring mechanism for measuring and displaying the flow rate of the released hydrogen gas. It is a hydrogen gas inhaler
It has a hydrogen gas generator, a pressure vessel equipped with an opening mechanism capable of charging a hydrogen gas generator, and a hydrogen gas filling device, an internal pressure adjusting device, and a hydrogen gas discharging device, which are accessories of the pressure vessel. ,
The hydrogen gas filling device has a connection mechanism with the hydrogen gas generator, and the hydrogen gas generated by the hydrogen gas generator is generated by being arbitrarily connected to the hydrogen gas generator by the connection mechanism. Fill the pressure vessel and
The pressure vessel can store the hydrogen gas generated and filled by the hydrogen gas generator and the hydrogen gas generated by the hydrogen gas generating agent charged into the pressure vessel. ,
The internal pressure adjusting device controls the internal pressure of the pressure vessel within a range of specified numerical values.
The hydrogen gas release device includes a flow rate adjusting mechanism for releasing the hydrogen gas stored in the pressure vessel, and includes starting or stopping the release of hydrogen gas by the user operating the flow rate adjusting mechanism. The flow rate has been adjusted,
The user can inhale hydrogen gas from the hydrogen gas release device in either a state of being connected to the hydrogen gas generator or a state of being disconnected from the hydrogen gas generator. A pressure vessel type hydrogen gas suction device characterized by being. It is a hydrogen gas inhaler
A hydrogen gas generator, a pressure vessel equipped with an opening mechanism capable of charging a hydrogen gas generator, a hydrogen gas filling device, an internal pressure adjusting device, and a hydrogen gas discharging device, which are accessories of the pressure vessel, at one end. It is provided with a connecting mechanism for connecting to the hydrogen gas discharging portion of the hydrogen gas generator, and has a connector having one or a plurality of connecting mechanisms for connecting to the hydrogen gas discharging device at the other end.
The hydrogen gas filling device is optionally connected to the hydrogen gas generator via the connector to fill the pressure vessel with the hydrogen gas generated by the hydrogen gas generator.
The pressure vessel can store the hydrogen gas generated and filled by the hydrogen gas generator and the hydrogen gas generated by the hydrogen gas generating agent charged into the pressure vessel. ,
The internal pressure adjusting device controls the internal pressure of the pressure vessel within a range of specified numerical values.
The hydrogen gas release device includes a flow rate adjusting mechanism for releasing the hydrogen gas stored in the pressure vessel, and includes starting or stopping the release of hydrogen gas by the user operating the flow rate adjusting mechanism. The flow rate has been adjusted,
The user can inhale hydrogen gas from the hydrogen gas release device in either a state of being connected to the hydrogen gas generator or a state of being disconnected from the hydrogen gas generator. A pressure vessel type hydrogen gas suction device characterized by being. The internal pressure adjusting device includes an internal pressure measuring mechanism for measuring and displaying the internal pressure of the pressure vessel.
The pressure vessel type hydrogen gas inhalation according to any one of claims 3 or 4, wherein the hydrogen gas discharge device includes a flow rate measuring mechanism for measuring and displaying the flow rate of the released hydrogen gas. apparatus. A connector characterized in that one end is provided with a connection mechanism with a hydrogen gas discharge unit of a hydrogen gas generator, and the other end is provided with a connection mechanism with one or more hydrogen gas discharge devices.