KR102119522B1 - Full face mask with built-in respiratory bag - Google Patents

Abstract

The present invention relates to a full-face mask with a respiratory bag embedded therein, which can be used in both land and underwater environments and includes the respiratory bag to temporarily store air for rebreathing. According to the present invention, the full-face mask comprises: a frame formed to surround the head, sealing the inside, and having a lens disposed on a front surface to view a front side; an air pocket coupled to the inner upper surface of the frame and protecting the head from an impact; the respiratory bag disposed in the air pocket to allow the internal space of the frame to communicate with a rebreathing device disposed on the outside and supplying the air to the rebreathing device or receiving the air from the rebreathing device in accordance with inhalation or exhalation; and a respiratory tube penetrating the respiratory bag and the air pocket to allow the respiratory bag to communicate with the internal space of the frame and the rebreathing device and having a plurality of holes formed in the internal space of the respiratory bag.

Description

Full face mask with built-in respiratory bag

The present invention relates to a full-face mask, and more particularly, it can be used in both a land environment and an underwater environment, and a full-face mask with a built-in breathing bag with a built-in breathing bag that temporarily stores air to perform rebreathing. will be.

Firefighters extinguishing a fire receive air through the air supply at the fire site. Such an air supply device supplies air of a reservoir loaded in a backpack form to the firefighter's back with a mask worn on the firefighter's face. The mask plays an important role in protecting the firefighter from toxic gases by communicating the air of the air supply device while shielding the firefighter's face transparently.

However, the above-described air supply device has a limitation in the amount of air that can be stored, and there is a problem in that the volume increases due to storing a large amount of compressed air.

In order to solve this problem, a rebreathing device capable of rebreathing has been developed.

The rebreathing device developed one-time is installed by exposing a breathing bag that temporarily stores air according to a user's breathing for rebreathing.

However, the breathing bag is formed of a flexible material in order to variably convert the volume according to the user's breath, but there is a problem that there is a risk of damage when exposed to the outside.

In addition, because the breathing bag is bulky and weak to heat, there is a problem that it is difficult to use in an environment where heat or space is restricted, such as a fire site.

Accordingly, an object of the present invention is to provide a full face mask with a built-in breathing bag with a built-in breathing bag for performing re-breathing to prevent breakage of the breathing bag and minimize volume.

The full face mask according to the present invention is formed to surround the head, and includes a rubber packing that seals the inside so that water or air does not flow in close contact with the face, and a frame in which a lens that sees forward is disposed on the front, the frame It is coupled to the inner upper surface of the air pocket to protect the head according to the impact, is provided inside the air pocket to communicate with the rebreathing device provided in the interior space and the outside of the frame, the ash by an inhalation or exhalation operation The air is introduced into the breathing apparatus, or through the breathing bag, the breathing bag and the air pocket receiving air from the rebreathing device, the breathing bag communicates with the inner space of the frame and the rebreathing device, It characterized in that it comprises a breathing tube having a plurality of holes formed on the inner space of the breathing bag.

In the full face mask according to the present invention, the air pocket is a first air pocket coupled to one side of the inner upper surface of the frame, and a second air coupled to the other side of the inner upper surface of the frame adjacent to the first air pocket It is characterized by including a pocket.

In the full face mask according to the present invention, the breathing bag is provided inside the first air pocket to temporarily store the air according to the exhalation action, the exhalation breathing bag is provided inside the second air pocket according to the inhalation action Characterized in that it comprises an inhaled breathing bag that temporarily stores air.

In the full face mask according to the present invention, the first air pocket, the second air pocket and the first re-breathing device further comprising a first T-type pipe and a second T-type pipe communicating with each other.

In the full-face mask according to the present invention, the first inner tube connecting the breathing bag and the rebreathing device and connected to the exhalation breathing bag therein, and a second inner tube connected to the inhalation breathing bag Characterized in that it further comprises a connector.

Full face mask according to the present invention by placing the breathing bag inside the air pocket that is installed in the portion in contact with the user's head on the inner space of the frame, to prevent damage to the breathing bag due to external shock or contact, and reduce the volume Can be minimized.

In addition, the full face mask according to the present invention can minimize the volume due to the installation of the respiratory bag while protecting the user's head due to external shock by the air pocket incorporating the respiratory bag, even if a separate shock absorbing device is not installed. .

1 is a view showing the configuration of a respiration system according to an embodiment of the present invention.
2 is a view showing the internal configuration of a rebreather system according to an embodiment of the present invention.
3 is a view showing the configuration of a connector according to an embodiment of the present invention.
4 is a view showing the configuration of a rebreather device according to an embodiment of the present invention.

In order to clarify the features and advantages of the problem solving means of the present invention, the present invention will be described in more detail with reference to specific embodiments of the present invention shown in the accompanying drawings.

However, in the following description and accompanying drawings, detailed descriptions of well-known functions or configurations that may obscure the subject matter of the present invention are omitted. In addition, it should be noted that the same components throughout the drawings are represented by the same reference numerals as much as possible.

The terms and words used in the following description and drawings should not be interpreted as being limited to ordinary or dictionary meanings, and the inventor may appropriately define the concept of terms for explaining his or her invention in the best way. Based on the principle that it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention. Therefore, the configuration shown in the embodiments and drawings described in this specification is only one of the most preferred embodiments of the present invention, and does not represent all of the technical spirit of the present invention, and can replace them at the time of this application. It should be understood that there may be equivalents and variations.

In addition, terms including ordinal numbers such as first and second are used to describe various components, and are used only to distinguish one component from other components, and to limit the components It is not used. For example, the second component may be referred to as a first component without departing from the scope of the present invention, and similarly, the first component may also be referred to as a second component.

In addition, when referring to a component being "connected" or "connected" to another component, it means that it can be connected or connected logically or physically. In other words, although the component may be directly connected or connected to other components, it should be understood that other components may exist in the middle and may be connected or connected indirectly.

In addition, the terms used in this specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In addition, terms such as "comprises" or "have" described herein are intended to indicate that there are features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, or one or more thereof. It should be understood that the above other features or numbers, steps, operations, components, parts, or combinations thereof are not excluded in advance.

In addition, terms such as “? part”, “? flag”, and “module” described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. have.

In addition, "a (a or an)", "one (one)", "the (the)" and analogs are different in the context of describing the present invention (especially in the context of the following claims) as otherwise indicated herein. It can be used in a sense that includes both singular and plural, unless otherwise explicitly contradicted by context.

1 is a view showing the configuration of a respiration system according to an embodiment of the present invention, FIG. 2 is a view showing the internal configuration of a respiration system according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention It is a view showing the configuration of the connecting pipe.

1 to 3, a rebreather system according to an embodiment of the present invention includes a full face mask 100 and a rebreather device 200.

Full-face mask 100 is composed of a frame 110, an air pocket 120, a breathing bag 130 and a breathing tube 140.

Frame 110 is a configuration for forming the appearance of the full-face mask 100, it is formed to surround the user's head and can be sealed inside. Although not shown, the frame 110 may be formed to have a packing therein to be in close contact with the face to seal the inside. In addition, the frame 110 is formed of a hard material to protect the user's head from external impact.

Since the frame 110 is formed of a hard material and is configured to surround the user's face, the first frame 111 that encloses the user's head and face, and the lens 111a that sees forward is disposed on the front side. The second frame 112 may be configured to be hinged to the first frame 111 to fix the first frame 111 to the user's head. That is, the user may wear the first frame 111 on the head and then attach the second frame 112 with the second frame 112 open.

The air pocket 120 may be coupled to the inner upper surface of the frame 110. Preferably, the air pocket 120 may be disposed to contact the upper surface of the first frame 111, that is, the upper part of the user's head.

The air pocket 120 is formed of a flexible material having a certain strength, such as plastic, synthetic resin, and the like, to protect the user's head from the frame 110 of a hard material when an external impact is applied. Can be.

In addition, the air pocket 120 forms a space for arranging the breathing bag 130 while protecting the head from external impact.

The air pocket 120 is a first air pocket 121 in which the exhalation breathing bag 131, which will be described later, is disposed inside, and the first air pocket 121 is coupled to the inner upper surface of the frame 110 adjacent to the first air pocket 121. 2 may include an air pocket (122). That is, the first air pocket 121 and the second air pocket 122 may be symmetrically disposed on the left and right sides of the head.

The breathing bag 130 is provided inside the air pocket 120 to communicate with the inner space of the frame 110 and the rebreathing device 200 provided outside. The breathing bag 130 may introduce air into the rebreathing apparatus 200 by an inhalation or exhalation operation, or may receive air from the rebreathing apparatus 200.

In addition, the breathing bag 130 may be formed of a flexible material such as rubber or silicone, and may be bulky or small according to inflow or outflow of air.

The breathing bag 130 is provided inside the first air pocket 121 and is provided inside the exhaling breathing bag 131 and the second air pocket 122 to temporarily store air according to the exhalation action. It may be configured to include an inhaled breathing bag 132 to temporarily store the air.

On the other hand, in general, the breathing bag is disposed outside and connected through a pipe. The breathing bag 130 according to an embodiment of the present invention is disposed in a space provided inside the air pocket 120, thereby reducing the volume and reducing the breathing bag to the outside. It is possible to reduce the weight by minimizing the myriad of configurations by placing in, and because the breathing bag is not exposed to the outside, it is provided inside the air pocket 120 so as not to be damaged by impact or contact.

The breathing tube 140 penetrates the breathing bag 130 and the air pocket 120 to communicate with the internal space of the breathing bag 130 frame 110 and the rebreathing device 200, and A plurality of holes 141 may be formed on the interior space. Here, the plurality of holes 141 may serve as a passage through which air in the space inside the frame 110 is introduced into the breathing bag 130 or the air inside the breathing bag 130 is discharged into the rebreathing device 200. Can be.

In addition, the breathing tube 140 may be able to directly move the air inside the frame 110 to the rebreathing device 200 when all of the air in the breathing bag 130 is exhausted by exhalation through a plurality of holes 141. I can apply.

In addition, the full face mask 100 according to an embodiment of the present invention is a first air pocket 121, the second air pocket 122 and the first T-shaped pipe 150 communicating with each other the rebreather device 200 It may further include. That is, the first T-type pipe 150 communicates with the first air pocket 121, the second air pocket 122, and the rebreathing device 200 so that even if there is insufficient air in either side, the insufficient air is not filled in the remaining space. Can be done. That is, the first T-shaped pipe 150 may serve to reduce the pressure so that the expansion of the air pocket 120 can be smooth.

In addition, the full face mask 100 according to an embodiment of the present invention is a passage for moving air from the first air pocket 121, the second air pocket 122 and the rebreathing device 200 to the inhaled breathing bag 132 It may further include a second T-type pipe 170 in communication with.

Here, the second T-shaped pipe 170 may increase the pressure of the air pocket 120 so that the contraction of the air pocket 120 can be smoothly performed. For example, when the piston 230 is operated, the pressure of the first air pocket 121 decreases as the air of the exhalation breathing bag 131 flows into the first cylinder 210. Accordingly, the pressure of the first air pocket 121 is communicated with a passage for moving air from the rebreathing device 200 in which relatively positive pressure is generated through the second T-shaped pipe 170 to the inhaled breathing bag 132. Can increase

In addition, the full face mask 100 according to an embodiment of the present invention connects the breathing bag 130 and the rebreathing device 200 and includes a connecting tube 160 connected to the exhaling breathing bag 131 therein. Can be. The connecting tube 160 may include a first inner tube 162 and a second inner tube 163 connected to the inspiration breathing bag 132. That is, the first inner tube 162 and the second inner tube 163 may be connected to the rebreathing device 200 through one passage by the outer tube 161. Accordingly, the structure can be simplified by reducing the two connectors to one.

The rebreather device 200 is a device for supplying air discharged from the full face mask 100 to the full face mask 100 again through a predetermined process to perform rebreathing.

The rebreathing device 200 may be configured to be hung on the user's back, but is not limited thereto, and may be configured in various forms such as a vest shape and a neck hanging shape.

Hereinafter will be described in more detail with respect to the respiration device 200 according to an embodiment of the present invention.

4 is a view showing the configuration of a rebreather device according to an embodiment of the present invention.

Referring to Figure 4, the respiration apparatus 200 according to an embodiment of the present invention is the first cylinder 210, the second cylinder 220, the piston 230, the valve 241, 242, 243, 244, 245 , 246) and a control unit (not shown).

The first cylinder 210 is connected to the exhalation breathing bag 130 of the full face mask 100 to temporarily store air introduced from the exhalation breathing bag 130 and remove carbon dioxide from the inflowing air. . Although not illustrated, the first cylinder 210 may include an adsorption member for adsorbing carbon dioxide.

The second cylinder 220 may be formed in connection with the first cylinder 210, and may be formed by dividing spaces from each other. The second cylinder 220 may introduce air from the first cylinder 210 and introduce air into the inhalation breathing bag by an exhalation operation or an inhalation operation.

The piston 230 divides the second cylinder 220 into the first region 221 and the second region 222, and inhales the air of the second cylinder 220 by an exhalation operation or an inhalation operation. ), or the air of the first cylinder 210 may be introduced into the second cylinder 220.

The piston 230 is reciprocated in the direction of the first region 221 or the second region 222 divided according to the exhalation or inhalation operation through the control of the motor 213 under the control of the control unit to support the user's breathing. Can be. Accordingly, the re-breathing apparatus 200 according to an embodiment of the present invention can minimize a user's breathing resistance and assist a user to breathe comfortably.

The valves 241, 242, 243, 244, 245, and 246 may include first valves 241 to sixth valves 246. The valves 241, 242, 243, 244, 245, and 246 may be configured as solenoid valves or rubber check valves. The first valve 241 may be provided on the first cylinder 210 to communicate with the first region 221 of the second cylinder 220. The second valve 242 may be provided in the first cylinder 210 to communicate with the second region of the second cylinder 220. The third valve 243 is provided in the first region 221 of the second cylinder 220 to communicate with the first valve 241 so that air in the first cylinder 210 flows into the first region 221. Can be. The fourth valve 244 is provided in the second region 222 of the second cylinder 220 to communicate with the second valve 242 to flow air from the first cylinder 210 into the second region 222. Can be. The fifth valve 245 is provided in the first region 221 of the second cylinder 220 to communicate with the inspiration breathing bag 132, and the air in the first region 221 flows into the inspiration breathing bag 132. I can do it. The sixth valve 246 is provided in the second region 222 of the second cylinder 220 to communicate with the inhalation breathing bag 132 to introduce air from the second region 222 into the inhaling breathing bag 132. Can be.

The control unit may control the piston 230 and the valves 241, 242, 243, 244, 245, and 246 by an exhalation operation or an inhalation operation.

That is, when the first exhalation operation and the first inhalation operation are performed, the control unit opens the first valve 241, the third valve 243, and the sixth valve 246, and operates the piston 230 to operate the first cylinder ( The air of 210) may be introduced into the first region 221, and the air of the second region 222 may be introduced into the inhalation breathing bag 132.

In addition, when the second exhalation operation and the second inhalation operation are performed, the controller opens the second valve 242, the fourth valve 244, and the fifth valve 245, and operates the piston 230 to operate the first cylinder. The air of 210 may be introduced into the second region, and the air of the first region 221 may be introduced into the breathing bag.

Specifically, first, when the first first exhalation operation is performed, the control unit grasps the first exhalation operation through the sensor and lowers the piston 230 to the reference line A in the direction of the second region 222, and simultaneously The 1 valve 241, the 3rd valve 243, and the 6th valve 246 are opened. Accordingly, the air in the first cylinder 210 flows into the first region 221 through the first valve 241 and the third valve 243, and the air in the second region 222 is the sixth valve 246 ) Through the inhaled breathing bag (132).

Next, when the first inhalation operation is performed, the control unit grasps the first inhalation operation through the sensor, lowers the piston 230 again from the reference line A in the direction of the second region 222, and simultaneously the first valve ( 241), the third valve 243 and the sixth valve 246 are opened, and the air in the first cylinder 210 is passed through the first valve 241 and the third valve 243 to the first region 221 , And the air remaining in the second region 222 is introduced into the inspiration breathing bag 132.

Next, when the second exhalation operation is performed after the first inhalation operation, the control unit recognizes the second exhalation operation through the sensor and simultaneously raises the piston 230 to the reference line A in the direction of the first region 221 and simultaneously removes the second exhalation operation. 2 Open the valve 242, the fourth valve 244 and the fifth valve 245. Accordingly, the air in the first cylinder 210 flows into the second region 221 through the second valve 242 and the fourth valve 244, and the air in the second region 222 is the fifth valve ( 245) is introduced into the inhaled breathing bag (132).

In addition, when the second inhalation operation is performed, the control unit grasps the second inhalation operation through the sensor, raises the piston 230 again from the reference line A in the direction of the first region 221, and simultaneously increases the second valve 242 ), the fourth valve 244 and the fifth valve 245 are opened, and the air of the first cylinder 210 is transferred to the second region 221 through the second valve 242 and the fourth valve 244. The air remaining in the first region 221 is introduced into the inspiration breathing bag 132.

In this way, the controller may continuously repeat the cycle in which the piston descends in the direction of the second region and then rises again in the direction of the first region.

In addition, the re-breathing apparatus 200 according to an embodiment of the present invention is provided between the second cylinder 220 and the inspiration breathing bag 132, the air flowing into the inspiration breathing bag 132 from the second cylinder 220 It may further include an oxygen cylinder 250 for replenishing oxygen.

Here, when the oxygen of the full face mask 100 falls below a predetermined value through the oxygen sensor, the controller may control the seventh valve 251 provided in the oxygen cylinder 250 to supply oxygen.

In addition, the re-breathing apparatus 200 according to an embodiment of the present invention is provided between the second cylinder 220 and the inspiration breathing bag 132, the air flowing into the inspiration breathing bag 132 from the second cylinder 220 It may further include an air cylinder 260 to replenish the air. Here, the air included in the air cylinder 260 may be atmospheric air.

Here, when the pressure inside the full face mask 100 falls below a predetermined value, the controller may control the eighth valve 261 provided in the air cylinder 260 to supply air. Accordingly, the control unit maintains a positive pressure at the fire site through the air cylinder 260, and can prevent the inflow of contaminants or water from the underwater environment.

In addition, the control unit grasps the speed of the user's exhalation or inhalation motion, and according to the user's exhalation or inhalation motion, the speed of the piston 230 and the size of the piston 230 stroke according to the user's breathing volume, The width of the first area 221 or the second area 222 may be controlled based on the reference line A.

As described above, the present specification includes details of a number of specific implementations, but they should not be understood as limiting to the scope of any invention or claim, but rather may be specific to a particular embodiment of a particular invention. It should be understood as a description of the features. Certain features that are described in this specification in the context of separate embodiments may be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment can also be implemented in multiple embodiments individually or in any suitable subcombination. Further, although features may operate in a particular combination and may be initially depicted as so claimed, one or more features from the claimed combination may in some cases be excluded from the combination, and the claimed combination subcombined. Or sub-combinations.

The described description presents the best mode of the present invention, and provides examples for explaining the present invention and for those skilled in the art to make and use the present invention. This written specification is not intended to limit the invention to the specific terms presented. Therefore, although the present invention has been described in detail with reference to the above-described examples, those skilled in the art can make modifications, alterations, and modifications to these examples without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be determined by the described embodiments, but should be determined by the claims.

100: full face mask 110: frame
111: first frame 111a: lens unit
112: second frame 120: air pocket
121: first air pocket 122: second air pocket
130: breathing bag 131: exhalation breathing bag
132: breath breathing bag 140: breathing tube
141: hole 150: first T-shaped pipe
160: connector 161: outer tube
162: first inner tube 163: second inner tube
170: second T-type pipe 200: rebreather device
210: first cylinder 220: second cylinder
221: first area 222: second area
230: piston 241: first valve
242: second valve 243: third valve
244: 4th valve 245: 5th valve
246: sixth valve 250: oxygen cylinder
260: air cylinder 300: rebreather system

Claims (5)

A frame formed to surround the head, the inside of which is sealed and the lens which sees forward is disposed on the front side;
An air pocket coupled to the inner upper surface of the frame and protecting the head from impact;
It is provided inside the air pocket and communicates with the internal space of the frame and the rebreathing device provided outside, introducing air into the rebreathing device by inhaling or exhaling or receiving air from the rebreathing device. Breathing bag;
A breathing tube penetrating through the breathing bag and the air pocket to communicate the breathing bag with the inner space of the frame and the rebreathing device, wherein a plurality of holes are formed on the inner space of the breathing bag; Including,
The air pocket,
A first air pocket coupled to one side of the inner upper surface of the frame;
A second air pocket coupled to the other side of the inner upper surface of the frame adjacent to the first air pocket; Including,
The breathing bag,
An exhalation breathing bag provided inside the first air pocket to temporarily store air according to an exhalation operation;
An inhalation breathing bag provided inside the second air pocket to temporarily store air according to an inhalation operation; Including,
A connecting tube connecting the breathing bag and the rebreathing device, and including a first inner tube connected to the exhaling breathing bag and a second inner tube connected to the inhaling breathing bag;
Full-face mask comprising a. delete delete According to claim 1,
A first T-type pipe and a second T-type pipe communicating with the first air pocket, the second air pocket, and the rebreather device;
Full face mask characterized in that it further comprises. delete

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