RU2115447C1 - Insulating respirator apparatus - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has damping system composed of upper and lower rigid housings with holes for fixing shock absorbers of vertically variable cross-section. The lower housing is rigidly connected to regeneration cartridge casing. The upper one is connected to envelope casing. EFFECT: improved quality of respiratory organ protection. 5 dwg

Description

 The invention relates to chemically bound oxygen insulating breathing apparatus.

 Known insulating breathing apparatus on chemically bound oxygen (A.S. USSR N 180491, class A 62 B 33/00, 1966), containing a regenerative cartridge with a regenerative product, a breathing bag, a respiratory isolation unit and a case, consisting of a housing and covers. In the case cover there is a breathing bag and a respiratory isolation unit, and a regenerative cartridge and a shock absorption system are placed in the case. The latter is made in the form of hollow balls of elastic material, mounted on a common axis, and is designed to fix the regenerative cartridge in the case body in order to reduce the destruction of the regenerative product during transportation and wear of the device.

 The disadvantage of the apparatus is the low resistance of the regenerative cartridge and the regenerative product to mechanical stresses arising under the operating conditions of such devices - shock, fall, etc. This is due to the small area of the depreciation contact, since the regenerative cartridge rests only on the balls, and under mechanical action, the cartridge deforms at the contact points, which leads to a violation of the relationship between its internal elements. As a result, the constant pressing of the regenerative product in the cartridge is not ensured. In addition, such a constructive implementation of the depreciation system does not provide reliable fixation of the regenerative cartridge in the case body, as a result of which, when exposed to radial (lateral) loads, the cartridge slides from the balls and occupies an unstable position, which, in turn, causes the destruction of the product in the cartridge.

 The objective of the invention is to increase the resistance of the apparatus to mechanical stresses by eliminating the movement of the regenerative cartridge in the case body both in the axial and in the radial direction, and ensuring the perception of mechanical loads by the entire cartridge case.

 The problem is solved by the present invention, according to which in a chemically bound oxygen insulating breathing apparatus containing a regenerative cartridge with a regenerative product, a breathing bag, a respiratory isolation unit, a protective case and a cartridge damping system in the case, the latter consists of lower and upper rigid cages with holes in which shock absorbers of variable cross-sectional height are fixed, while the lower clip is rigidly connected to the cartridge case, and the upper one to the case body.

 Such a constructive implementation of the apparatus provides reliable fixation of the cartridge in the case of the case and the perception of mechanical loads by the entire perimeter of the cartridge case, while excluding the movement of the cartridge in both axial and radial directions.

 The constructive implementation of shock absorbers with a height-variable cross-section allows you to perceive both radial and axial loads, and their fastening in hard clips ensures the amortization of the cartridge in the case on all planes of application of physical loads.

 In FIG. 1 shows an assembly of an insulating breathing apparatus; in FIG. 2 is a view of the top of a regenerative cartridge in conjunction with a shock absorber; in FIG. 3 - shock absorber design; in FIG. 4 is a top view of a depreciation system; in FIG. 5 is a side view of a depreciation system.

 The insulating breathing apparatus contains shock absorbers of elastic material 1, fixed in the holes of the metal cage 2, which is tightly worn on the housing of the regenerative cartridge 3 from the side of its lower bottom. Oxygen containing a regenerative product 4 is placed in the cartridge 3. The cartridge 3 is installed in the case 5 case so that the shock absorbers 1 abut against the bottom of the case 5 and at the same time fit snugly against the side surface of the case 5.

 From the side of the upper bottom of the cartridge 3 (Fig. 2), a second clip 2 with shock absorbers 1 is installed so that the shock absorbers are fixed in a special recess in the bottom of the cartridge and at the same time fit snugly against the side surface of the upper part of the case 5. The whole system is fixed in the case 5 by rolling (bending) the open neck of the case body on board the upper holder 2.

 A breathing bag 9 and a respiratory isolation unit 10 (corrugated tube with a mouthpiece or face mask) are connected to the nozzles of the upper bottom of the cartridge. They are tightly packed, and the device is hermetically sealed with a cover 6 through the gasket 7 using a tie strap 8.

 Shock absorbers 1 made of elastic material, for example, rubber, have the same design in the upper and lower parts of the cartridge (Fig. 3).

The shock absorber 1 consists of a shank 11, with which it is fixed in one of the holes of the holder 2, the cylindrical part 12, which is pressed against the side surface of the case 5, and the conical part 13. The cylindrical part 12 of the shock absorber 1 is made so that when installing the shank 11 in the clip, the shock absorber 1 protrudes beyond the clip 2 by an amount l equal to or slightly greater than the gap l ₁ between the cartridge 3 and the case body 5, which excludes free movement of the cartridge in the radial direction (Figs. 4 and 5). From the upper bottom side, the cartridge 3 is also kept from radial movement by the conical part 13 of the shock absorber 1 located in the bottom recess (Fig. 2).

 In the axial direction, the free movement of the cartridge 3 is prevented by tightly compressing the entire system in the housing of the case 5 and rolling the sides of the housing 5 onto the upper holder 2 (place B, Fig. 2).

 Insulating breathing apparatus during long-term operation for 5 years are subjected to frequent jolts, shocks, for example, when transporting on machines, snagging on protrusions of machines, mechanisms, drift walls, as well as less frequent strong blows when falling from shelves, shelves, cars, slipping out user’s hands. Tests of the devices are carried out in the first case by tumbling in a hexagonal drum, in the second case by throwing from a height of 1.8 m onto a concrete base, alternating several times on each face of the case.

 In the first case, the protection of the regenerative cartridge 3 and product 4 in the proposed design against mechanical damage occurs due to the elastic compression of the conical part 13 of the shock absorber 1 by a different amount depending on the push force and taking into account the variable cross section of the conical part 13. With strong impacts, the cylindrical part 12 of the shock absorber 1, ensuring the exclusion of a "dry blow" of the cartridge 3 on the body 5 of the apparatus.

 In the proposed apparatus design, the cartridge 3 is reliably suspended in the case 5 on the shock absorbers 1 with the help of rigidly fixed clips 2 in all six mutually perpendicular directions. Therefore, there is no slipping of the cartridge 3 from the shock absorbers 1, and the shock absorbers 1 cannot move from the places in which they were placed during assembly. The lower part of the cartridge 3 (bottom) does not rely on the shock absorbers 1 themselves over a limited area, but on the clips 2, which distribute the impact forces to the entire perimeter of the cartridge 3. This eliminates the penetration of the cartridge 3 at the points of contact with the shock absorbers 1. Therefore, the design of the apparatus provides not only an increase its resistance to mechanical stress, but also the possibility of making the housing of the cartridge 3 of a thinner sheet material, which ultimately reduces the weight of the apparatus, i.e. optimize one of its main characteristics.

 The assembly of the apparatus is as follows. Shock absorbers 1 are mounted in the holes of the casing 2 with their shanks. One cage 2 with fixed shock absorbers 1 is put on the lower part of the cartridge 3, and the assembly is inserted into the case body 5 until it stops in its bottom. A second clip 2 with shock absorbers 1 is installed on top so that the conical parts 13 are in the recess of the upper part of the cartridge 3. From above, the entire system is pressed to prevent inelastic movement in the case, and the open side of the case 5 is rolled (bent) to the side of the upper holder 2. Next the apparatus is assembled in a known manner: a respiratory isolation unit 10 is mounted, a breathing bag 9, which are tightly placed above the upper bottom of the cartridge 3 in the case 5. The cover of the case 6 is put on, which is pressed against process to the body case 5 via the gasket 7 and the fixed clamping strip 8. Checks sealing apparatus.

Claims (1)

 A chemically bound oxygen insulating breathing apparatus comprising a regenerative cartridge with a regenerative product, a breathing bag, a respiratory isolation unit, a protective case and a cartridge damping system in the case, characterized in that the cushioning system consists of lower and upper rigid cages with holes in which shock absorbers of variable cross-sectional height are fixed, while the lower casing is rigidly connected to the housing of the regenerative cartridge, and the upper one - to the casing of the case.

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