RU210988U1 - Filtering device - Google Patents

Abstract

The utility model relates to gas and smoke removal and safety equipment and can be used in the elimination of the consequences of fires in the premises of habitable objects after the use of fire extinguishing systems with fire extinguishers.

The proposed utility model makes it possible to ensure the removal of the gas-smoke-air mixture from the room where the fire occurred and its filtration with constant monitoring of the composition and selection of the optimal filtration mode. This increases safety during gas and smoke removal using a filter-ventilation device, and reduces the risk of ejection of a contaminated gas-smoke-air environment.

Description

The utility model relates to means of gas and smoke removal from a room in which a fire has occurred, and it is required to eliminate the consequences after the use of fire extinguishing systems using fire extinguishers. Fluoroketones, freons and their modifications, carbon dioxide, nitrogen, argon, argonite, inergen or other inert gases and their mixtures can be used as fire extinguishers.

After extinguishing the fire with fire extinguishers, a gas-smoke-air mixture is formed in the room, which must be removed with an influx of clean air or cleaned to a level specified by environmental and medical standards.

The utility model can also be used to remove and filter the indoor air in case of other pollution not related to fire.

A device for extracting a gas-smoke-air mixture (http://www.evromash.ru/catalog/venti/pz/dpe/dpesu/) is known, containing a ventilation module connected at the inlet by an exhaust sleeve with a valve for installation in the gas outlet channel of the room, and also installed on outlet of the ventilation module pressure hose.

The disadvantage of this technical solution is the lack of filtration of the removed gas-smoke-air mixture, which leads to contamination of other rooms. In addition, the lack of control over the composition of the removed gas-smoke-air mixture does not allow one to accurately determine the moment when the device stops working and guarantee the safety of the air environment in a polluted room.

A device for extinguishing a fire and cleaning the gaseous environment from smoke and toxic gases inside a sealed room is known (patent RU 2026121). The device contains interconnected filtration and ventilation modules, a control unit, and when placed outside the room where the fire occurred, it is supplemented with an exhaust sleeve to remove the gas-smoke-air mixture.

The disadvantage of the device is the absence of a rigid end of the exhaust sleeve for connection with the gas outlet channel of the room, which requires an additional device to connect the exhaust sleeve with a contaminated room. Also, the lack of control over the composition of the removed gas-smoke-air mixture does not allow one to accurately determine the moment when the device stops working and guarantee the safety of the air environment in a polluted room. In order to avoid residual toxicity of the gas-smoke-air mixture in the room where the fire took place, it is necessary to overestimate the life of the device. But even this does not guarantee the achievement of the permissible concentration of impurities in the room, and the release of the gas-smoke-air mixture with residual toxicity into other rooms is possible.

The closest technical solution adopted for the prototype is a universal filtering device (patent RU 2707602) placed in the room where the fire occurred, containing interconnected filtration and ventilation units, and the filtration module includes several filters with the ability to change the filtration modes, at least at least one exhaust sleeve connected to the inlet of the filtration module, as well as a control unit and sensors connected to it for the composition of the gas-smoke-air mixture (one or more).

The disadvantage of the described universal filter-ventilation device is the absence of a rigid end of the exhaust sleeve for connection with the gas outlet channel of the room, which requires an additional device for connecting the exhaust sleeve with a polluted room. In addition, automatic control of the filtration mode is carried out only by changing the pressure of the ventilation unit when the fan speed changes. These shortcomings are largely related to its main method of application - placement in the room where the fire occurred.

The task to be solved by the proposed utility model is to improve safety during gas and smoke removal using a filter-ventilation device.

The technical result of the proposed solution is to reduce the risk of personnel contact with a toxic gas-smoke-air mixture during gas-smoke removal by providing the possibility of placing equipment in an adjacent (uncontaminated) room, quickly and with minimal leakage, connecting the filter-ventilation device to a contaminated room.

The solution of the problem and the technical result are achieved by the fact that in the filter-ventilation device containing interconnected filtration and ventilation modules, and the filtration module includes several filters with the possibility of changing the filtration modes, connected to the input of the filtration module at least one exhaust sleeve, a control unit, at least one gas-smoke-air mixture composition sensor installed along the exhaust flow of the gas-smoke-air mixture and connected to the control unit; gas-smoke-air mixture composition sensor.

Additionally, enhancing the specified technical result, the filtering device may contain at least one pressure hose connected to the outlet of the ventilation module, which contains a rigid end for installation in the gas supply channel of the room and supplying the gas-air mixture cleaned by the filtration module to the room.

The proposed utility model is illustrated by figures.

The figure 1 shows a General view of the filtering device with an exhaust sleeve.

The figure 2 shows a General view of the filtering device with exhaust and pressure sleeves.

The proposed filter-ventilation device contains interconnected filtration (1) and ventilation (2) modules, a control unit (3), an exhaust sleeve (4) with a rigid end (5) for installation in the gas outlet channel of the room, and sensors for the composition of the gas-smoke-air mixture (6). The composition and number of sensors is determined depending on the fire extinguisher used and the requirements for monitoring the composition of the gas-smoke-air mixture removed from the room. In figure 1, the sensors of the composition of the gas-smoke-air mixture are shown installed at the inlet of the filtration module. They can also be mounted on a rigid end or on an extraction arm. The most effective way to control the gas-smoke-air environment directly in the room and achieve a technical result is to install an appropriate sensor on a rigid end.

The rigid end may be a metal box or other rigid structure to ensure placement in the gas outlet channel of the room from the side outside the room. The figure 1 shows a rigid ending (5), made according to a two-pass scheme: one passage is connected by an exhaust sleeve to the filtration module, and the second serves for the natural flow of air into the polluted room.

The air inflow into the polluted room during the operation of the filter-ventilation device can also be organized outside the gas outlet channel, through the creation of an additional gas supply channel.

To minimize the risk of contamination of the room where the filter-ventilation device is installed and where the personnel may be, it may additionally contain at least one pressure hose (7) connected to the outlet of the ventilation module (2) with a rigid end (8) installed in the gas supply channel of the room . In this case, the rigid ends of both the exhaust and supply arms are made single-pass.

The filter-ventilation device, which has both exhaust and pressure hoses, provides a closed filtration cycle, which makes it possible to avoid the release of a gas-smoke-air mixture with residual contamination into the staff room. The shutdown of the filter-ventilation device is determined on the basis of data from the sensor of the composition of the gas-smoke-air mixture.

The filtration module (1) of the device includes several filters (9) with the possibility of changing the degree of filtration due to various combinations of operating filters. In this case, the control unit (3) contains a filtering circuit switch depending on the signal from the gas-smoke-air mixture composition sensor. Switching can be carried out both in manual and automatic mode.

The proposed device works as follows.

In the case of fire extinguishing and the need for gas and smoke removal from the room, the filter-ventilation device is installed in the room, next to the polluted one.

Then, a rigid end with an exhaust sleeve is installed in the gas outlet channel of the room.

The filter-ventilation device is connected to an electric current source and the fan module (2) is turned on, which creates a vacuum in the line from the valve (5), through the exhaust sleeve (4) and the filter module (1) to the entrance to the fan module (2).

In this case, the composition of the gas-smoke-air mixture is analyzed by sensors (6), the signal from which is transmitted to the control unit (3) with a possible reflection of the results, for example, on a monitor. The monitor can display the current concentration of controlled components, as well as the dynamics of change, including for various components of the gas-smoke-air mixture.

In the case of using signal lamps, they light up (or, conversely, go out) when the specified concentration of the controlled components of the gas-smoke-air mixture is reached.

If the control unit (3) has an automatic shutdown device, such a shutdown occurs when the specified level of readings of the gas-smoke-air mixture sensors is reached. Shutdown can also be done in manual control mode

If the control unit (3) has a device for automatically changing the filtration scheme depending on the signal from the gas-smoke-air mixture composition sensor, such a change occurs when the specified parameters of the gas-smoke-air mixture are reached. This allows you to choose the optimal filtration scheme. For example, a coarse filter (cleaning from mechanical impurities) can be disabled if the data on the composition of the gas-smoke-air mixture show their absence.

Changing the filtration scheme can also be done in manual control mode.

Changing the filtration scheme can be implemented by redirecting the flows of the gas-air mixture to other filters or by changing the pressure of the ventilation module (changing the rotational speed).

If there is a pressure hose (7), before starting the operation of the device, it is connected by means of a rigid end (8) to the gas supply channel of the room. When the filtering device is turned on, the gas-smoke-air mixture, cleaned by the filtration module (1), is directed to the supply channel of the room. As a result, a closed cycle of the gas-smoke-air mixture is formed, which is drawn out of the room, cleaned in the filtration module (2) and fed back into the room. At the same time, the analysis of the data received from the sensor of the composition of the gas-smoke-air mixture (5) makes it possible to turn off the device only upon reaching the specified parameters of the mixture.

Thus, the proposed utility model, within the framework of solving the general problem of improving the safety of operation of a filtering device, reduces the risk of personnel contact with a toxic gas-smoke-air mixture during gas-smoke removal.

The proposed filter-ventilation device can be quickly placed in an uncontaminated room, connected to a contaminated one with minimal leakage of a toxic mixture, ensures the removal and filtration of the gas-smoke-air mixture with constant monitoring of its composition and the ability to control the filtration mode.

Claims (2)

1. A filter-ventilation device containing interconnected filtration and ventilation modules, and the filtration module includes several filters with the ability to change filtration modes, at least one exhaust sleeve connected to the inlet of the filtration module, a control unit, at least one installed along the exhaust stream of the gas-smoke-air mixture and a gas-smoke-air mixture composition sensor connected to the control unit, characterized in that the exhaust sleeve has a rigid end for a close-gap installation in the gas outlet channel of the room, and the control unit is configured to change the composition and operation mode of the filters based on the signal from the gas-smoke-air mixture composition sensor. 2. The filtering device according to claim 1, characterized in that it additionally contains at least one pressure hose connected to the outlet of the ventilation module, which contains a rigid end for installation in the gas supply channel of the room.

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