RU2156627C1 - Isolating respirator device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has housing, regenerative canister having starting unit, breathing bag and respiration isolation unit. The housing has casing and cover. The breathing bag is placed into the housing casing. The breathing bag and respiration isolation unit are placed in the housing cover and connected with the canister tubes. The housing cover has rigid insert made from elastic material and joined with the cover by means of flexible link. Heat insulation is additionally placed in the cover. EFFECT: high reliability of the apparatus. 2 cl, 4 dwg

Description

 The invention relates to insulating breathing apparatus on chemically bound oxygen, intended to protect respiratory organs in an emergency.

 Known insulating breathing apparatus on chemically bound oxygen (1), containing a regenerative cartridge with a starting device, a breathing bag and a respiratory isolation unit, consisting of a corrugated tube with a mouthpiece and nose clip. The regenerative cartridge is placed in the case body with a gap relative to its walls and is fixed in it by a ring. A breathing bag and a corrugated tube with a mouthpiece and a nose clip are attached to the nozzles of the cartridge and placed in the cover of the case.

 The cover is connected to the case body through a sealing elastic seal and secured by a locking device.

 When included in the device, the user tears off the cover of the case, takes the mouthpiece in his mouth, puts on a nose clip and breathes in the device in an insulating mode. At the same time, for quick inclusion in the apparatus, the breathing bag and the respiratory isolation unit during assembly of the apparatus are stacked in a clearly ordered manner so that when opening the case the user does not make unnecessary movements when taking the mouthpiece and nose clip, and the breathing bag opens without effort. At the same time, the packing of the bag and the respiratory isolation unit must be compact and dense enough to put the cover of the case on it when assembling the device.

 However, such a constructive implementation of the apparatus does not provide sufficient reliability of the inclusion of the user in the apparatus for the following circumstances. When assembling the apparatus, the breathing bag is folded and laid on a cartridge installed in the case body. Then, the corrugated tube is rolled up into a ring, laid on top of the breathing bag and closed with the hanging edges of the breathing bag. Then, holding the entire assembly with your hand, install the case cover on it. The latter is fixed to the housing with tie straps and a locking device. Since the breathing bag and the respiratory isolation unit (corrugated tube) are made of rubber-like materials, which is due to the requirements of these nodes, in the absence of external holding force, both the bag and tube are deformed (stretched), thereby violating the integrity of the assembly. In this case, the nodes are distributed in the volume of the cover of the case in an arbitrary way, are displaced relative to each other and are mixed up. At the same time, the bag and tube can catch on protruding metal parts of the regenerative cartridge (nozzles, starting device, clamps). In addition, during assembly, it is possible to press the bag with the cover of the case to the sealing surface of the case. All these processes are amplified by external mechanical influences in the form of shock, shaking and vibration, which are inevitable when the device is worn by the user (miner). As a result, when the lid of the case is removed for inclusion in the apparatus, the miner is not able to immediately take the mouthpiece in his mouth and is forced to separate the nodes from each other, and this operation is carried out in a mine, i.e. in the dark and touch. At the same time, a rupture of the bag and the corrugated tube is possible if they were hooked on the metal parts of the cartridge or pressed against the cover of the case. As a result, the user will either not be able to quickly turn on the device, or will not be able to turn on the device at all, which is life threatening.

 The objective of the invention is to increase the reliability of the inclusion of the user in the apparatus.

 The problem is solved by the present invention, according to which in an insulating breathing apparatus containing a case consisting of a housing and a cover, a regenerative cartridge with a starting device located in the housing of the case, a breathing bag and a respiratory isolation unit located in the cover of the case connected to the nozzles of the cartridge are located the case is equipped with a rigid insert made of an elastic material and connected with a lid by a flexible connection.

 Such a constructive implementation of the apparatus makes it possible to fix the assembly from the breathing bag and the respiratory isolation unit in the case cover tightly and compactly, thereby eliminating the mixing of assembly elements both with respect to each other and with respect to cartridge elements. It also excludes the possibility of pressing the bag with the lid of the case during assembly. When the device is opened (cover is broken), the insert is deployed and removed together with the cover due to its elastic properties, and the integrity of the assembly is maintained for a time sufficient for the user to take the mouthpiece in his mouth.

 In addition, the constructive design of the apparatus makes it possible to place a heat insulator, which is used to prevent burns on a portion of the user's body that comes into contact with a heated regenerative cartridge, along with a breathing bag and a respiratory isolation unit in the case cover. This eliminates the need to increase the dimensions of the apparatus, since the heat insulator, like the rest of the elements, is compactly fixed by the insert, as well as the need for an additional set of devices for fixing the heat insulator on the cartridge and / or on the user's body.

 The invention is illustrated by drawings, in which: FIG. 1 - breathing apparatus in running order, a General view in section; FIG. 2 - view of the breathing apparatus, ready for use; FIG. 3 - insert; FIG. 4 is a view of a cover with an insert after opening the apparatus.

 The insulating breathing apparatus consists (Fig. 1, 2) of a regenerative cartridge 1 installed inside the case body 2 with a gap relative to its walls and secured with shock absorbers 3 and an angular ring 4. A breathing bag 7 with an excess valve is connected to the nozzles 5 and 6 of the cartridge pressure (not shown) and a respiratory isolation unit in the form of a corrugated hose 8 with a mouthpiece 9 and a nose clip 10. The nose clip 10 is attached to the mouthpiece 9 by a flexible connection. The breathing bag 7 is connected to the mouthpiece 9 by a belt loop 11. The cartridge 1 is equipped with a starting device consisting of a starting briquette 12 and a starting mechanism 13, the cap of which is connected by a flexible connection 14 to a hook 15 located on the inner surface of the cover 16 of the case.

 The cover 16 of the case is provided with a rigid insert 17. The insert 17 is a rectangular plate (Fig. 3) made of a rigid elastic material, such as fiber. When placed in the cover 16 of the case, the insert 17 takes the form of a cover 16.

 The insert 17 has an opening 20 through which the flexible connection 14. The insert 17 along the lower perimeter enters the gap formed by the flanging of the corner ring 4. The breathing bag 7 and the corrugated hose 8 with the mouthpiece 9 and the nose clip 10 are arranged orderly in the insert 17.

 The apparatus is also equipped with goggles 18 and a heat insulator 19, which are stacked in the insert 17. The heat insulator 19 is a rectangular plate made of a flexible heat insulating material, such as foam rubber. A plate of one of its faces is attached to the ring 4 by a flexible connection. The glasses 18 are folded, fastened with a rubber ring and also attached to the ring 4 by a flexible connection.

 When assembling the apparatus (Fig. 1, 2), a regenerative cartridge 1 with a starting device and a breathing bag 7 and a corrugated hose 8 with a mouthpiece 9 and a nose clip 10 connected to the nozzles of the cartridge 1 are installed in the case body 2 on the shock absorbers 3 and the cartridge 1 is fixed with an angular ring 4. The heat insulator 19 is rolled up, which is laid on the surface of the cartridge 1 along its perimeter. Then, a breathing bag 7 and a corrugated hose 8 are laid in a clearly ordered manner, for which they fold the bag 7, fold the hose 8 with a ring and place it over the bag 7 so that the mouthpiece 9 is in the upper position near the starting device. The nose clip 10 and goggles are also placed here 18. The insert 17 is inserted into the gap formed by the flanging of the corner ring 4, while the side faces of the insert 17 are overlapped by 5-10 mm.

 Thus, the assembly of the breathing bag 7, the corrugated tube 8 with the mouthpiece 9 and the nose clip 10, glasses 18 and the heat insulator 19 is inside the rigid insert 17 in a tightly packed state, eliminating the displacement of the assembly elements both relative to each other and relative to the protruding parts of the cartridge 1. Next, the cover 16 of the case is mounted on the assembly and fixed to the case 2 of the case by a locking device. This eliminates the possibility of accidentally engaging the cover 16 of any assembly elements and pinching them between the housing 2 and the cover 16.

 When you turn on the device, the user opens the case and drops the cover 16 (Fig. 4), with which the insert 17 is removed. In this case, the trigger cap 13 is torn off by means of a flexible connection 14, as a result of which the triggering device is triggered, initiating the start of chemical reactions in the cartridge 1 and filling the breathing bag 7 with oxygen. Then the user takes the mouthpiece 9 in his mouth and installs the nose clip 10. Since the assembly "breathing bag - respiratory isolation unit" fixed by insert 17 has not changed its initial position, the user does not have difficulty determining the position of the mouthpiece 9, which is always at hand user, thereby ensuring the reliability of inclusion in the device. The possibility of gusts of the bag 7 is also excluded, since the assembly density provided by the insert 17 makes it impossible to engage the assembly elements in the metal parts of the cartridge 1. After inclusion in the apparatus, the user puts on glasses 18 and deploys a heat insulator along the case body 2.

Sourse of information
1. Av. St. USSR N 1106517, IPC A 62 B 7/08, 08/07/1987.

Claims (2)

 1. An insulating breathing apparatus based on chemically bonded oxygen, comprising a case consisting of a cover and a housing, a regenerative cartridge with a starting device located in the housing of the case, a breathing bag and a respiratory isolation unit located in the cover of the case connected to the nozzles of the case, characterized in that that the cover of the case is provided with a rigid insert made of an elastic material and connected to the cover by a flexible connection.  2. The insulating breathing apparatus according to claim 1, characterized in that it further comprises a heat insulator located in the cover of the case.

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