JP2020165497A - Gas supply device - Google Patents

Abstract

To realize a gas supply device that can improve a degree of freedom of swimming.SOLUTION: A gas supply device 1 comprises a container body 2 comprising a housing chamber 21 housing gas containing oxygen, and a discharge member 3 for adjusting pressure of the gas housed in the housing chamber 21, and discharging the adjusted gas to the outside of the housing chamber 21. The container body 2 and the discharge member 3 are connected to each other and integrated. The gas supply device 1 also comprises a fixing member for fixing the container body 2 to an arm part of a user.SELECTED DRAWING: Figure 1

Description

The present invention relates to a gas supply device that supplies a gas containing oxygen to a user.

Such a gas supply device is disclosed in, for example, the following Patent Document 1 (Japanese Patent Publication No. 7-017316). The gas supply device [A] of Patent Document 1 is simply configured by using a small and lightweight gas cartridge [3]. Patent Document 1 describes that such a gas supply device [A] can be used not only for disaster prevention and medical use but also for diving.

Jitsufuku 7-017316 Gazette

By the way, in recent years, due to the development of technology that enables underwater photography (for example, due to the spread of smartphones having an underwater imaging function), the demand for underwater photography at beaches and other sites has increased, and it will continue for a certain period of time. It is required to be able to swim in the sea. However, when a gas supply device as disclosed in Patent Document 1 is used for diving, the user is in a state of holding the gas supply device in his mouth when receiving the gas supply from the gas supply device. When the gas is not supplied, the gas supply device is separated from the mouth and held by hand. Therefore, when the user does not receive the gas supply, the hand holding the gas supply device is not free and there is a possibility that swimming may be hindered. On the other hand, if the user tries to keep the gas supply device in his mouth without holding it in his hand, there is a high possibility that the gas supply device cannot withstand the resistance of water and is separated from the mouth. In some cases, it may interfere with swimming.

In view of the above circumstances, it is desired to realize a gas supply device capable of improving the degree of freedom of swimming.

The gas supply device according to the present disclosure is
A container body having a storage chamber for accommodating an oxygen-containing gas, and a discharge member for adjusting the pressure of the gas contained in the storage chamber and discharging the adjusted gas to the outside of the storage chamber. A gas supply device that supplies the gas to the user in preparation for
The container body and the discharge member are connected to each other and integrated.
It is characterized by further including a fixing member for fixing the container body to the arm of the user.

According to this configuration, the container body and the discharge member can be fixed to the user's arm by the fixing member. As a result, when the user wants to receive the gas supply, he / she moves the arm to bring the discharge member integrated with the container body closer to the mouth to supply the gas discharged from the discharge member. Can receive. When the gas is not supplied, both arms can be freely used, including the arm to which the container body is fixed, and the degree of freedom of swimming can be improved.

here,
The discharge member includes an air supply unit that can be held in the mouth by the user.
The air supply unit is provided so as to project in a direction intersecting the connecting direction between the container body and the discharge member.
It is preferable that the air supply unit has a posture changing mechanism, and the posture changing mechanism is configured to be able to change the posture of at least one of the protruding direction and the rotation around the protruding direction.

In a configuration in which the container body integrated with the discharge member is fixed to the user's arm, the user moves the arm when receiving gas supply from the air supply part provided in the discharge member. It is necessary to bring the air supply part close to the mouth. Here, the length of the arm portion of the user is different for each person, and the angle of the arm portion when the air supply portion is brought close to the mouth differs depending on the length of the arm portion. Therefore, depending on the user, the posture of the air supply unit may not be the proper posture for the air supply when trying to receive the gas supply. According to this configuration, since the air supply unit can change its posture by the posture change mechanism, it is possible to make the air supply unit an appropriate posture for each user having different arm lengths. ..

Also,
The discharge member includes a pressure display unit that displays the pressure inside the storage chamber.
It is preferable that the pressure display unit is arranged side by side with the air supply unit.

According to this configuration, the pressure display unit can be arranged close to the air supply unit. This makes it easier for the user to check the pressure display unit in, for example, a series of operations in which the gas is supplied from the air supply unit.

Also,
The fixing member is flexible and includes a container body insertion portion into which the container body is inserted and an arm insertion portion into which the arm portion is inserted.
It is preferable that the container body insertion portion is provided according to the number of the storage chambers of the container body.

According to this configuration, for example, even when the container body has a plurality of storage chambers, the container body and the discharge member connected to the container body can be appropriately held by the container body insertion portion. Then, the user can appropriately hold the container body and the discharge member connected to the container body by the arm insertion portion. Further, when the size of the container body is different due to the flexibility of the fixing member provided with the container body insertion portion and the discharge member, or the size of the arm portion is different due to different users. Even if they are different, the gas supply device can be used properly.

Also,
The container body insertion portion is formed in a tubular shape that covers the periphery of the container body, and is configured so that the container body can be inserted into the tubular body.
The arm insertion portion is formed in a tubular shape that covers the periphery of the arm portion, and is configured so that the arm portion can be inserted into the tubular portion.
It is preferable that the container body insertion portion and the arm insertion portion are arranged side by side so that the axis of the container body insertion portion and the axis of the arm insertion portion are parallel to each other.

According to this configuration, it is possible to prevent the gas supply device from becoming larger in the direction along the length direction of the arm, and it is possible to appropriately secure the degree of freedom of swimming by the user.

Also,
The container body has a plurality of the storage chambers arranged in parallel.
It is preferable that a plurality of the container body insertion portions are formed according to the plurality of the storage chambers.

According to this configuration, the capacity of gas that can be accommodated in the entire device can be increased, and the container body having a plurality of accommodation chambers can be appropriately held.

It is preferable that the arm insertion portion includes an adjusting portion for adjusting the inner peripheral length.

According to this configuration, the inner circumference of the arm insertion portion can be adjusted according to the thickness of the arm of the user, and even if the thickness of the arm differs due to different users. , The gas supply device can be used properly.

Further features and advantages of the techniques according to the present disclosure will be further clarified by the following illustration of exemplary and non-limiting embodiments described with reference to the drawings.

Front view of gas supply device II-II sectional view in FIG. Perspective view of fixing member IV arrow view in FIG. It is a V arrow view in FIG. 1, and shows only the discharge member. Diagram showing the movement of the user when using the gas supply device Diagram showing how the user is receiving gas from the gas supply device

[Embodiment]
An example of the embodiment of the gas supply device 1 will be described with reference to the drawings. As shown in FIG. 1, the gas supply device 1 adjusts the pressure of the gas contained in the storage chamber 21 and the container body 2 having the storage chamber 21 for accommodating the gas containing oxygen, and adjusts the gas. A discharge member 3 for discharging to the outside of the storage chamber 21 is provided.

As shown in FIGS. 1 and 2, the container body 2 has a wall portion 22 that covers the storage chamber 21. The storage chamber 21 stores a gas containing oxygen in a high pressure state. The gas contained in the storage chamber 21 may be a gas containing oxygen or oxygen gas itself. In the present embodiment, the storage chamber 21 stores air containing oxygen, nitrogen, etc. in a high pressure state. Therefore, when the accommodation chamber 21 becomes empty, or when the amount of gas in the accommodation chamber 21 becomes low, the compressed air is accommodated in the accommodation chamber 21, and the inside of the accommodation chamber 21 is filled with gas. Can be met.

The gas supply device 1 is configured to supply such gas to the user 9 (see FIG. 6) of the gas supply device 1. The gas supply device 1 can be used for disaster prevention and medical purposes, but is preferably used for diving. The discharge member 3 is a so-called regulator, and discharges the high-pressure gas (high-pressure air) filled in the storage chamber 21 of the container body 2 by reducing the pressure to a pressure suitable for the diving depth of the user 9.

In the present embodiment, the container body 2 has a plurality of storage chambers 21 arranged in parallel. In the illustrated example, the container body 2 has two storage chambers 21 arranged in parallel, and further has a confluence 23 where the two storage chambers 21 merge. The merging portion 23 is covered with a wall portion 22 that covers the above-mentioned storage chamber 21, and is formed on the side of the container body 2 to which the discharge member 3 is connected. In other words, the merging portion 23 is formed between the accommodating chamber 21 and the discharge member 3. As a result, even when the container body 2 has a plurality of storage chambers 21, it is possible to realize a configuration in which gas can be discharged by one discharge member 3.

As shown in FIG. 1, the container body 2 and the discharge member 3 are connected to each other and integrated. Although not shown, a sealing member such as packing is provided at the connecting portion between the container body 2 and the discharge member 3. As a result, the connecting portion between the container body 2 and the discharge member 3 is sealed so as not to leak gas.

As shown in FIGS. 1, 4 and 5, the discharge member 3 includes an air supply unit 31 that allows the user 9 to hold the mouth portion 91 (see FIG. 6). The user 9 can receive the gas supply in the state where the air supply unit 31 is added. In the present embodiment, the air supply unit 31 is provided so as to project in a direction intersecting the connecting direction of the container body 2 and the discharge member 3. In the illustrated example, the air supply unit 31 is provided so as to project in a direction orthogonal to the above-mentioned connecting direction.

In the present embodiment, the air supply unit 31 is provided on the side surface 3F of the discharge member 3. In this example, the discharge member 3 has a main body portion 30 internally provided with a pressure regulating mechanism for reducing the pressure of the gas in a high pressure state, and the air supply portion 31 is provided so as to project from the main body portion 30. .. Note that FIG. 5 shows only the discharge member 3 for convenience of explanation.

Here, the side surface 3F of the discharge member 3 is a surface facing a direction orthogonal to the direction in which the discharge member 3 and the container body 2 are arranged. In the present embodiment, the outer diameter of the discharge member 3 (the outer diameter of the main body portion 30) excluding the air supply portion 31 is formed in a substantially columnar shape. Therefore, in the present embodiment, the side surface 3F of the discharge member 3 is an outer peripheral surface formed in a cylindrical shape. However, the discharge member 3 may be formed in a polygonal columnar shape (for example, a square columnar shape or a pentagonal columnar shape) without being limited to such a configuration. In this case, the discharge member 3 has a plurality of side surfaces, and the air supply unit 31 is provided on one of the plurality of side surfaces (side surface 3F). As shown in FIG. 5, a plurality of pressure adjusting holes 32 are formed on the end surface of the main body 30. When the user 9 is swimming using the gas supply device 1, water is guided to the inside of the main body 30 through the plurality of pressure adjusting holes 32. As a result, the diaphragm (not shown) provided inside the main body 30 is elastically deformed (curved), and the pressure inside the main body 30 is appropriately maintained.

In the present embodiment, the air supply portion 31 is bitten and sandwiched by the tubular air supply passage 31A protruding from the main body portion 30, the air supply port 31B opened at the end of the air supply passage 31A, and the user 9. The biting portion 31C and the cover portion 31D which covers the air supply port 31B and the biting portion 31C and is configured so that the gas discharged from the air supply port 31B does not leak when the user 9 receives the gas supply. ,have. Specifically, the cover portion 31D is configured to cover the periphery of the mouth portion 91 of the user 9 when the user 9 receives the gas supply, and can suppress gas leakage during the gas supply. It has become. With the above configuration, the gas decompressed by the pressure regulating mechanism of the main body 30 is discharged from the air supply port 31B through the air supply path 31A and supplied to the inside of the port 91 of the user 9. Further, by biting and sandwiching the biting portion 31C, the user 9 can maintain the state of holding the air supply portion 31 only by the force of the jaw without using a hand. The main body 30 is provided with an exhaust passage (not shown) provided with a check valve, so that the exhaled air of the user 9 can be discharged through the exhaust passage, and the inside of the main body 30 is provided by the check valve. It is possible to suppress the backflow of water.

In the present embodiment, the discharge member 3 includes a pressure display unit 33 that displays the pressure inside the storage chamber 21. As a result, the user 9 can check the remaining amount of gas and can swim safely. In this example, the pressure display unit 33 is configured as an analog type having a pointer that swings in response to a pressure change. However, the pressure display unit 33 is not limited to such a configuration, and may be configured in a digital manner in which the remaining amount of gas is indicated by a numerical value, a symbol, or the like.

Here, when the conventional gas supply device is used for diving, the user is in a state of holding the gas supply device by hand away from the mouth when the gas is not supplied from the gas supply device. In this state, the hand holding the gas supply device was not free, and there was a possibility that swimming would be hindered. On the other hand, if the user tries to keep the gas supply device in his mouth without holding it in his hand, there is a high possibility that the gas supply device cannot withstand the resistance of water and is separated from the mouth. In some cases, it could interfere with swimming.

Therefore, as shown in FIGS. 1 to 3 and 6, the gas supply device 1 according to the present disclosure further includes a fixing member 4 for fixing the container body 2 to the arm portion 92 of the user 9. According to this configuration, as shown in FIGS. 6 and 7, when the user 9 wants to receive the gas supply, the user 9 moves the arm portion 92 and mouths the discharge member 3 integrated with the container body 2. By approaching the unit 91, the gas discharged from the discharge member 3 can be supplied. Then, when the gas is not supplied, both arms including the arm portion 92 to which the container body 2 is fixed can be freely used, and the degree of freedom of swimming can be improved. Further, from such a configuration, since it is not necessary for the user 9 to always hold the air supply unit 31 by mouth during swimming, for example, the air supply unit 31 is configured not to have the above-mentioned biting unit 31C. You can also do it. In the present embodiment, the container body 2 is configured to be fixed to the forearm portion of the arm portions 92 of the user 9 by the fixing member 4. In other words, the container body 2 is configured to be fixed between the wrist joint and the elbow joint in the arm portion 92 of the user 9. Further, in the present embodiment, the fixing member 4 is configured to directly fix the container body 2 to the arm portion 92 of the user 9. However, it may be indirectly fixed instead of directly fixed. For example, the fixing member 4 may indirectly fix the container body 2 to the arm portion 92 by fixing the discharge member 3 to the arm portion 92 of the user 9. Further, such indirect fixing may be performed, for example, by fixing the connecting portion between the container body 2 and the discharge member 3 to the arm portion 92.

In the present embodiment, the fixing member 4 is flexible and includes a container body insertion portion 4A into which the container body 2 is inserted and an arm insertion portion 4B into which the arm portion 92 is inserted. As shown in FIGS. 2 and 3, the container body insertion portion 4A and the arm portion insertion portion 4B are connected to each other by the connecting portion 4C. In the illustrated example, the container body insertion portion 4A and the arm portion insertion portion 4B are arranged with the connecting portion 4C sandwiched between them.

In this example, the container body insertion portion 4A is composed of a rubber band member. As shown in FIG. 2, the container body insertion portion 4A is formed by forming the band member into a tubular shape and adhering the band members by the first adhesive portions 41A formed on the front surface and the back surface thereof. The arm insertion portion 4B is also configured in the same manner as the container body insertion portion 4A, and has a second adhesive portion 42B. In the present embodiment, the first adhesive portion 41A and the second adhesive portion 42B are configured by a hook-and-loop fastener. However, the present invention is not limited to such a configuration, and the first adhesive portion 41A and the second adhesive portion 42B may be configured to be removable, for example, a fitting portion having irregularities and fitting to each other. It may be composed of such as. In this example, the first adhesive portion 41A is formed along the longitudinal direction of the band member, and the inner peripheral length of the container body insertion portion 4A can be adjusted. Similarly, the second adhesive portion 42B is formed along the longitudinal direction of the band member, and the inner peripheral length of the arm portion insertion portion 4B can be adjusted. As described above, the container body insertion portion 4A and the arm insertion portion 4B are provided with an adjustment portion for adjusting the inner peripheral length, and in the present embodiment, each of the first adhesive portion 41A and the second adhesive portion 42B Corresponds to the adjustment part.

In the present embodiment, the container body insertion portion 4A is formed in a tubular shape that covers the periphery of the container body 2, and the container body 2 (storage chamber 21) can be inserted into the tubular body. The arm insertion portion 4B is formed in a tubular shape that covers the periphery of the arm portion 92, and is configured so that the arm portion 92 can be inserted into the tubular portion. In this example, as shown in FIGS. 2 and 3, the container body insertion portion 4A and the arm portion are inserted so that the axis XA of the container body insertion portion 4A and the axis XB of the arm portion insertion portion 4B are parallel to each other. The portions 4B are arranged side by side. As a result, even when the container body 2 includes a plurality of storage chambers 21, when the gas supply device 1 is attached to the arm portion 92 of the user 9, the gas supply device 1 is the length of the arm portion 92. It is possible to suppress the increase in size along the vertical direction. Therefore, it is possible to appropriately secure the degree of freedom of swimming by the user 9.

The container body insertion portion 4A is provided according to the number of storage chambers 21 included in the container body 2. As described above, in the present embodiment, since the container body 2 has a plurality of (two in this example) storage chambers 21, there are a plurality of container body insertion portions 4A (two in this example). A plurality (two) are formed according to the accommodation chamber 21.

As shown in FIGS. 1 and 2, in the present embodiment, the gas supply device 1 includes a positioning member 5 for positioning the fixing member 4 at an appropriate position with respect to the container body 2. The positioning member 5 is attached to the container body 2. The positioning member 5 is provided according to the number of the accommodation chambers 21, and in this example, two positioning members 5 are provided corresponding to the two accommodation chambers 21. In the illustrated example, the positioning member 5 is provided on the outer peripheral surface of the annular mounting portion 51 mounted around the wall portion 22 covering the accommodating chamber 21 and the fixing member 4 is engaged. It has a stop 52 and.

A plurality of locking portions 52 (two in this example) are provided for one mounting portion 51, and a space in which the fixing member 4 is inserted, specifically, a container main body, is provided between the locking portion 52 and the mounting portion 51. A space is formed in which the band member forming the insertion portion 4A is inserted (see FIG. 2). The band member forming the container body insertion portion 4A is inserted into the space between the mounting portion 51 and the locking portion 52, and the first adhesive portion 41A is adhered to the fixing member 4 so that the container body 2 is attached. Positioned against. In addition to being able to position the fixing member 4, the positioning member 5 also makes it possible to prevent the container body 2 from falling off from the fixing member 4 (or the arm portion 92).

Here, as described above with reference to FIG. 6, the user 9 who uses the gas supply device 1 moves the arm portion 92 to bring the discharge member 3 integrated with the container body 2 closer to the mouth portion 91. This makes it possible to receive gas supply. However, the length of the arm portion 92 of the user 9 is different for each person, and the angle of the arm portion 92 when the air supply portion 31 is brought closer to the mouth portion 91 differs depending on the length of the arm portion 92. Therefore, depending on the user 9, the posture of the air supply unit 31 when trying to receive the gas supply, in this example, the posture of the biting portion 31C and the cover portion 31D formed according to the shape of the human mouth. However, the posture may not be appropriate for the air supply.

Therefore, in the present embodiment, as shown in FIGS. 1, 4 and 5, the air supply unit 31 has a posture changing mechanism 31E, and the posture changing mechanism 31E changes the protruding direction and rotates around the protruding direction. It is configured so that at least one of the postures can be changed. In the illustrated example, the posture changing mechanism 31E is rotatably connected to the tubular air supply path 31A around the axis of the air supply path 31A. Then, the posture changing mechanism 31E rotates integrally with the air supply port 31B, the biting portion 31C, and the cover portion 31D. As a result, the posture changing mechanism 31E is configured so that the biting portion 31C and the cover portion 31D can be rotated. As described above, in this example, the posture changing mechanism 31E changes the posture of the air supply unit 31 by rotating the air supply unit 31, in other words, by rotating the air supply unit 31 around the protruding direction. change.

Further, in the present embodiment, the pressure display unit 33 described above is arranged side by side with the air supply unit 31. As a result, the pressure display unit 33 can be arranged close to the air supply unit 31, and as shown in FIG. 7, the user 9 displays the pressure in a series of operations in which the gas is supplied from the air supply unit 31. It is easy to confirm the unit 33.

According to the gas supply device 1 described above, when the user 9 wants to receive the gas supply, the user 9 moves the arm portion 92 to bring the discharge member 3 integrated with the container body 2 closer to the mouth portion 91. As a result, the gas discharged from the discharge member 3 can be supplied. Then, when the gas is not supplied, both arms including the arm portion 92 to which the container body 2 is fixed can be freely used, and the degree of freedom of swimming can be improved.

[Other Embodiments]
Next, other embodiments of the gas supply device 1 will be described.

(1) In the above embodiment, an example in which the container main body 2 has a plurality of storage chambers 21 arranged in parallel has been described. However, without being limited to such an example, the plurality of storage chambers 21 may be arranged in a state of being inclined at different angles from each other.

(2) In the above embodiment, an example in which the container body 2 has two storage chambers 21 has been described. However, without being limited to such an example, the container body 2 may have only one storage chamber 21 or may have three or more storage chambers 21. Further, when there is only one storage chamber 21, it is preferable that there is only one container body insertion portion 4A of the fixing member 4. When there are three or more storage chambers 21, it is preferable that the container body insertion portion 4A also has three or more.

(3) In the above embodiment, an example in which the posture changing mechanism 31E is configured to change the posture of the air supply unit 31 by rotating the air supply unit 31 has been described. However, without being limited to such an example, the posture changing mechanism 31E may be configured by, for example, a bellows-shaped flexible hose so as to be able to maintain an arbitrarily changed shape. As a result, the posture of the air supply unit 31 can be changed three-dimensionally. That is, the air supply unit 31 may be configured to be able to change the posture in the protruding direction by the posture changing mechanism 31E.

(4) The configurations disclosed in each of the above-described embodiments can be applied in combination with the configurations disclosed in other embodiments as long as there is no contradiction. With respect to other configurations, the embodiments disclosed herein are merely exemplary in all respects. Therefore, various modifications can be made as appropriate without departing from the gist of the present disclosure.

The technique according to the present disclosure can be used in a gas supply device for supplying a gas containing oxygen to a user.

1: Gas supply device 2: Container body 3: Discharge member 3F: Side surface 4: Fixing member 4A: Container body insertion part 4B: Arm insertion part 21: Storage chamber 31: Air supply part 31E: Attitude change mechanism 33: Pressure display Part 9: User 91: Mouth 92: Arm XA: Axial center XB: Axial center

According to this configuration, for example, even when the container body has a plurality of storage chambers, the container body and the discharge member connected to the container body can be appropriately held by the container body insertion portion. Then, the user can appropriately hold the container body and the discharge member connected to the container body by the arm insertion portion. Further, since the fixing member provided with the container body insertion portion and the arm insertion portion has flexibility, the size of the container body is different, or the arm portion is different due to different users. Even if the sizes are different, the gas supply device can be used appropriately.

Claims (7)

A container body having a storage chamber for accommodating an oxygen-containing gas, and a discharge member for adjusting the pressure of the gas contained in the storage chamber and discharging the adjusted gas to the outside of the storage chamber. A gas supply device that supplies the gas to the user in preparation for
The container body and the discharge member are connected to each other and integrated.
A gas supply device further provided with a fixing member for fixing the container body to the arm of the user. The discharge member includes an air supply unit that can be held in the mouth by the user.
The air supply unit is provided so as to project in a direction intersecting the connecting direction between the container body and the discharge member.
The gas according to claim 1, wherein the air supply unit has a posture changing mechanism, and the posture changing mechanism can change the posture of at least one of the protruding direction and the rotation around the protruding direction. Supply device. The discharge member includes a pressure display unit that displays the pressure inside the storage chamber.
The gas supply device according to claim 2, wherein the pressure display unit is arranged side by side with the air supply unit. The fixing member is flexible and includes a container body insertion portion into which the container body is inserted and an arm insertion portion into which the arm portion is inserted.
The gas supply device according to any one of claims 1 to 3, wherein the container body insertion portion is provided according to the number of the storage chambers of the container body. The container body insertion portion is formed in a tubular shape that covers the periphery of the container body, and is configured so that the container body can be inserted into the tubular body.
The arm insertion portion is formed in a tubular shape that covers the periphery of the arm portion, and is configured so that the arm portion can be inserted into the tubular portion.
The fourth aspect of claim 4 in which the container body insertion portion and the arm insertion portion are arranged side by side so that the axis of the container body insertion portion and the axis of the arm insertion portion are parallel to each other. Gas supply device. The container body has a plurality of the storage chambers arranged in parallel.
The gas supply device according to claim 4 or 5, wherein a plurality of container body insertion portions are formed according to the plurality of storage chambers. The gas supply device according to any one of claims 4 to 6, wherein the arm insertion portion includes an adjusting portion for adjusting the inner peripheral length.

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