RU2106162C1 - Device for emergency ventilation - Google Patents

Abstract

FIELD: cleaning and regeneration of air in emergency situations. SUBSTANCE: vessel for oxygen generator is made in the form of body with holes. Vessel for filter has holes with covers. Means for air supply is formed by injector whose pressure branch pipe is connected through nozzle with body hole and discharge branch pipe is connected with hole in bottom of vessel with filter, and suction branch pipe is communicated with ventilated space. Filter is made in the form of lime absorber. Solid chemical members of oxygen generator may be made in the form of plates. EFFECT: higher efficiency. 2 cl, 1 dwg

Description

 The invention relates to means for cleaning and regenerating air in emergency situations and can be used as a system for cleaning a gas medium in emergency compartments of a submarine, as well as in gas-tight sealed rooms at normal and high pressure.

A device is known for emergency ventilation of submarine compartments and internal volumes of diving equipment designed to maintain the necessary oxygen concentration in the gas environment (19-25 vol.%) And to remove carbon dioxide (CO ₂ ), in which the helio-oxygen mixture is fed through a hose to a diving volumetric helmet through the injector. The injector, in turn, sucks in the gas mixture from the helmet and carries out forced circulation.

 The ventilated helio-oxygen mixture is driven by the injector through a regenerative cartridge filled with an oxygen-containing substance, in which it is purified from carbon dioxide and replenished with oxygen [1].

 The specified equipment provides ventilation of the spacesuit in high pressure conditions.

 The disadvantage of this type of design is the need for a source of compressed air (gas mixture), sintering of the regenerative substance in the process of mining and a significant dependence of the efficiency of the substance on temperature, humidity and pressure, high fire hazard.

Known regenerative two-tier installation (RDU), which placed a plate of oxygen-containing (regenerative substance), absorbing CO ₂ and emitting oxygen [2].

The principle of operation of the device is based on the fact that the substance of the plates installed in the RDU enters into a chemical reaction with water vapor and carbon dioxide (CO ₂ ) contained in the compartment atmosphere. As a result of the exothermic reaction, CO ₂ is absorbed and oxygen is released. The heat generated during the reaction provides heating of the regenerated air and its convention through the RDU. Air enters through the lower windows of the installation and exits through the upper.

 The disadvantage of this device is the inefficiency of its use in high pressure due to a decrease in convention and a decrease in the regenerative power of the regenerative substance.

 In addition, the use of an oxygen-containing substance in a re-loadable leakproof design is extremely fire hazard and is associated with the risk of damage to the skin and respiratory tract of serving personnel by dust particles of this substance.

 The closest analogue of the claimed invention is a device for emergency ventilation, containing containers with an oxygen generator on solid chemical elements and a filter and means for supplying air [3].

 The technical result of the claimed invention is to increase the efficiency of the ventilation system at normal and high pressure, providing the ability to quickly turn on an emergency and reduce fire hazard.

 The specified technical result is achieved in that in the proposed device, the container for the oxygen generator is made in the form of a housing with an opening, the filter container has openings with covers, one of which is located in its bottom, the means for supplying air is formed by an injector, the discharge pipe of which is connected through the nozzle with an opening in the housing, an outlet with an opening in the bottom of the container with a filter, and the suction port communicates with a ventilated space, while the filter is a lime absorber, and solid chemical elements of the oxygen generator are made in the form of plates.

 A schematic diagram of a device for emergency ventilation is shown in the drawing.

 The device for emergency ventilation consists of a cartridge 1 with caps with fittings 2 and 3, filled with a chemical lime absorber XII-I 4, an oxygen generator 5 on solid chemical sources with an ignition device 6, placed in a durable airtight housing 7 with a cover 8 fitting 9. K nipples 3 and 9 are connected to the nozzles 10 and 11 of the gas injector 12 with a set of nozzles 13, in front of the discharge pipe 11 of which a nozzle 14 is installed.

 The intake of the ventilated medium by the injector is through the suction pipe 15.

 In the idle state, the fitting 2 of the upper cover of the cartridge is closed by the cover 16, and the suction pipe 15 is covered by the cover 17.

 The operation of the emergency ventilation device is as follows.

 At the time of an emergency in enclosed spaces, for example, in a submarine compartment (when the oxygen concentration drops to 19% and the carbon dioxide content exceeds 1%), the protective covers 16, 17 of the cartridge and suction nozzle of injector 12, respectively, are removed. 6 (initiated or electric type) ignition is performed.

 When combustion occurs in the upper layer of the generator 5, oxygen is intensively released from it and the pressure in the housing 7 rises. Oxygen flows through the nozzle 9 of the cover 8 and the nozzle 14 into the cavity of the pipe 11 of the gas injector 12.

 The nozzle diameter and oxygen flow through it are selected so that the gas flow through the nozzle due to the pressure differential before and after it is in the electric zone (i.e., the pressure in the rugged airtight housing 1 does not affect the operation of the injector).

 Gaseous oxygen passes through a set of nozzles 13 of the injector 12, due to the resulting vacuum inside the suction pipe, air is sucked in from the room in a ratio several times greater than the amount of oxygen supplied to the injector. The obtained air-oxygen medium with a high content of carbon dioxide under pressure is fed into cartridge 1, in which, passing through a chemical lime absorber, it is cleaned of carbon dioxide and then thrown into the compartment through the nozzle 2.

 The total ventilation time of the compartment (room) depends on the amount of solid chemical sources in the oxygen generator.

Studies conducted on the layout of the emergency ventilation device showed that when using a standard oxygen generator manufactured by the domestic industry with a mass of 1 kg of injector with a constant supply of oxygen to the pressure nozzle at a pressure of at least 3 kgf / cm ² and a flow rate of 9-10 l / min provides continuous ventilation of the room 100 l / min for 1 hour

 The authors see the operational efficiency of the emergency ventilation device at normal and elevated pressure in the device's high fire safety, speed of commissioning, ease of maintenance, and the possibility of using it under normal and elevated ambient pressure.

Claims (2)

 1. A device for emergency ventilation, containing containers with an oxygen generator on solid chemical elements and a filter and means for supplying air, characterized in that the container for the oxygen generator is made in the form of a housing with an opening, the filter container has openings with covers, one of which located at its bottom, the means for supplying air is formed by an injector, the discharge pipe of which is connected through a nozzle to the opening of the housing, the outlet to the hole in the bottom of the container with a filter, and the suction is in communication with space in which the filter is a lime absorber.  2. The device according to claim 1, characterized in that the solid chemical elements of the oxygen generator are made in the form of plates.