RU2389520C1 - Method and device indoors live-saving in outdoor air pollution - Google Patents

Abstract

FIELD: medicine, fire fighting equipment.

SUBSTANCE: method of indoors live-saving in outdoor air pollution consists in enabling a starting device and feeding excess pressure pure air in a premise through a feed line. Before feeding, pure air is pre-charged in a high pressure tank. A device comprises an excess pressure pure air source connected with the premise through the feed line provided with the starting device. The feed line is equipped by a throttle; the air feed starting device represents a starting valve. The excess pressure pure air source consists of a main and at least one auxiliary part each of which presents at least one pre-charged high-pressure tank with a charging crane. The main part is connected with a feed line in front of the starting valve and the throttle. The auxiliary part is connected with a feed line before a throttle through its own starting valve. The life-saving device comprises a distributor to enable the starting valve of the auxiliary part of the pressure source after reducing air consumption in the premise to admissible value.

EFFECT: reduced time required to enable pure air feeding in the premise, and eliminated effect on increasing preparation time for wind intensity and direction feeding.

5 cl, 1 dwg

Description

The invention relates to special devices for ventilation of gas shelters, in particular, saving lives by supplying clean air to a room with air pollution outside the room.

There is a method of rescuing the population of cities in rooms equipped with a water supply network, in case of accidents at industrial enterprises with ambient air pollution, which consists in supplying clean air with compressors or mine fans to the room, air is supplied to the room through the water supply after discharge from it with the possibility of personal supply to each resident, RF patent No. 2031667.

The essential features of the proposed method, which coincide with the features of the prototype, are the following: a method of saving people in the room when external air is contaminated, which involves activating the starting device and supplying excess pressure to the room with clean air through the supply line.

The known method is implemented by a device containing a source of excess pressure of clean air, made in the form of a compressor installed on the windward side, connected by means of a fire hydrant to the water supply network of the room, containing a starting device - a water tap. Additionally, from the water tap, clean air can be supplied with a hose and a distribution tee to each person.

The essential features of the proposed device, which coincides with the features of the prototype, are as follows: a device for rescuing people in a room when the external air is contaminated, containing a source of excess pressure of clean air in communication with the room via a supply line equipped with a starting device.

To apply the known method and device, it is necessary to help other people outdoors, for which it is necessary to spend a certain time, while help may be late, in addition, it is necessary to open water taps in the room and a certain time to drain the water from the water supply network. The time to ensure the protection of the room is further increased in the absence of wind, since the contaminated external air in this case spreads uniformly in all directions and the clean air zone for connecting the compressor can be removed from the protected room.

The technical result, the solution of which the invention is directed, is to reduce the time required to turn on the supply of clean air into the room, as well as to eliminate the influence on the increase in the preparation time for the supply of the magnitude and direction of the wind.

To solve the problem in a way to save people in the room with external air pollution, which involves activating the starting device and supplying excess pressure to the clean air room through the supply line, it is pre-charged into the high pressure tank before fresh air is fed into the room. Additionally, to increase the duration of protection when supplying air from a high-pressure vessel, the required flow rate is maintained by means of a control device. In addition, to further increase the duration of protection while reducing the air flow to an acceptable value, an additional high-pressure tank is connected to the supply line.

Distinctive features of the proposed method of rescuing people in a room when external air is contaminated is that prior to supplying clean air to the room, it is pre-charged into a high-pressure tank; when air is supplied from the high-pressure vessel by means of a regulating device, the required flow rate is maintained; while reducing the air flow to an acceptable value, an additional high-pressure tank is connected to the supply line.

To solve the problem in a device for rescuing people in a room with external air pollution containing a source of excess pressure of clean air in communication with the room through a supply line equipped with a starting device, the supply line is equipped with a throttle, the starting air supply device is made in the form of a starting valve, the source of excess clean air pressure consists of the main and at least one additional parts, each of which is made in the form of at least one previously for a sealed high-pressure cylinder with a charging valve, the main part being connected to the supply line in front of the start valve and the throttle, the additional part is connected to the supply line in front of the throttle through its own starting valve, and the rescue device contains a dispenser for activating the start valve of the additional part of the pressure source after reduce airflow into the room to an acceptable value. Additionally, to increase the duration of protection, the supply line in front of the throttle is connected to the room with at least one additional line containing the start valve and throttle, and the switchgear is configured to activate the start valve of the additional line after the start valve of the additional part of the pressure source is activated and air flow is reduced into the room to an acceptable value.

Distinctive features of the proposed device for saving people is that the supply line is equipped with a throttle, the starting air supply device is made in the form of a starting valve, the source of excess pressure of clean air consists of the main and at least one additional parts, each of which is made in the form of less than one pre-charged high-pressure cylinder with a charging valve, while the main part is in communication with the supply line in front of the start valve and throttle, an additional part it is connected with the supply line in front of the throttle through its own start-up valve, and the rescue device contains a switchgear for activating the start-up valve of an additional part of the pressure source after reducing the air flow into the room to an acceptable value; the supply line in front of the throttle is connected to the room with at least one additional line containing the start-up valve and throttle, and the switchgear is configured to activate the start-up valve of the additional line after the start-up valve of the additional part of the pressure source is activated and air flow into the room is reduced to an acceptable value .

Due to the presence of these distinctive features, together with the known ones, the following technical result is achieved: the quick-start device for rescuing people in the room when the outside air is polluted, regardless of atmospheric conditions, wind direction and in its absence, and also eliminates the need for preparatory work by the rescue service outside the room. Additionally, it is possible to automatically control the flow of clean air into the room. The reliability and service life of the device are increased, the amount of routine maintenance necessary to maintain the operability of the device during the service life is reduced. Additionally, due to additional features, an increase in protection time is provided.

The proposed technical solutions can be applied at various national economic facilities to protect people's lives for several hours before assistance arrives in office rooms, console rooms for production control during accidents in industrial premises, communication lines, fires associated with air pollution outside the premises.

The essence of the proposed method and device for saving people is illustrated in the drawing.

The device for saving people contains a source of excess pressure of clean air, which consists of a main part and an additional part. The main part is made in the form of a high-pressure cylinder 1 with a charging valve 2. The device comprises a line 3 for supplying clean air to the office 4, comprising an entrance door 5 and a window 6 for ventilation or lighting. The supply line 3 is equipped with a starting device, made in the form of a starting valve 7, and a throttle 8. The cylinder 1 is in communication with the service room 4 via line 3, for this the cylinder 1 is connected with a line 3 in front of the starting valve 7 and the throttle 8. A filter is installed in front of the throttle 8 9. An additional part of the source of overpressure is made in the form of an additional high-pressure cylinder 10 of clean air with a charging valve 2 connected to the service room 4 via line 3, for which the cylinder 10 is communicated by line 11 through the start valve 12 with l line 3 in front of the throttle 8. Line 11 contains an additional throttle 13 and a filter 9 installed in front of the throttle 13. The rescue device is equipped with a switchgear 14 for actuating the start valve 12 after reducing the air flow through line 3 to room 4 to an acceptable value after a certain period of time after switching on the rescue device by activating the start valve 7. The distribution device 14 can be implemented in various ways, for example, in the form of an electromechanical processor or an electric device with an electronic processor that determines the required time interval for turning on valve 12, either in the form of an electric device using an air flow sensor or using air pressure reduction alarms in cylinder 1 or in line 3, corresponding to an allowable decrease in clean air flow into room 4. Line 3 in front of the inductor 8 is communicated with the room 4, at least one additional line 15 containing the start valve 16 and the inductor 17. In this case, the switchgear 14 is made with the possibility of involvement of the starting valve 16 after starting valve engagement portion 12 of additional source of pressure, and reduce the air flow rate through line 3 into the room 4 to the permissible value.

The device operates as follows. Cylinders 1 and 10, pre-charged through charging valves 2 from a high-pressure compressor (not shown) with clean air, ensure that the device is always ready to supply clean air to the room 4. If there is a risk of air pollution outside the room 4, maintenance personnel, for example, an operator in the process control panel , overlaps the door 5 and window 6. To implement the method according to claim 1 or claim 2, it is enough to open the charging valve 2 of the cylinder 1 of the main part or 10 of the additional part of the source and the pressure, opening the passage of clean air in premises 4, providing it with supercharging to the overpressure relative to the pressure outside the room 4. Excess pressure can be controlled by the barometer indoor 4 (not shown). With a decrease in the air flow into the room 4 and the associated overpressure in the room 4 to the minimum acceptable value (determined by the measurement errors of the pressure inside and outside the room 4), the opening degree of the charging valves 2 is increased. The volume of cylinders 1 and 10 is selected so that the time interval from the use of charging cranes 2 to equalize the pressure in room 4 with the atmospheric was sufficient to organize the rescue of people. The operation of the device with automatic control of the flow of clean air into room 4 after closing the door 5 and window 6 is provided by pressing the "Start" button on the switchgear 14, while the start valve 7 is activated and clean air from the cylinder 1 through line 3 passes through the filter 9 and the throttle 8 into the room 4. At the initial moment of air supply at the maximum pressure in the cylinder 1 through the throttle 8, the maximum air flow enters the room 4, which decreases over time simultaneously with a decrease in pressure in the ba bosom 1. At the same time, the pressure in the room 4 initially increases to excess with respect to atmospheric pressure, and subsequently decreases to atmospheric pressure due to a decrease in air flow in the room 4 with a decrease in pressure in the cylinder 1 and leaks through the slots of the door 5 and window 6. The size of the throttle 8 is selected from the condition that the rate of increase in pressure in room 4 is safe for human health. The presence of a throttle 8 guarantees a certain amount of pressure increase in the room 4, which does not depend on the human factor. After reducing the air flow in the room 4 to an acceptable value, the switchgear 14 enables the start-up valve 12 to activate the additional part of the overpressure source, while the high-pressure air from the cylinder 10 through line 11 through the filter 9, the throttle 13 and line 3 enters the cylinder 1, pressure in cylinders 1 and 10 it is leveled to an intermediate value between the maximum in cylinder 10 and the minimum in cylinder 1, as a result, the pressure in front of the throttle 8 increases and, accordingly, increases the air flow in Room 4 is greater than the minimum permissible value, which ensures a further duration of operation of the device. The throttle 13 improves the dynamic characteristics of the device, providing smooth pressure equalization in the cylinders 1 and 10 and eliminating a sharp increase in air flow into the room 4 along line 3 through the throttle 8. The switchgear 14 in conjunction with the start valve 7 and 12 provides the ability to automatically control the flow of clean air along line 3 to room 4. Due to the absence of moving mechanical parts and complex units in the rescue device when the air is supplied, the rescue device is characterized by a design implicit simplicity, respectively, higher reliability, longer life and does not require a large amount of maintenance work. Additionally, the switchgear 14, after a certain time interval after activating the start valve 12 of the additional part of the pressure source and again reducing the air flow into the room 4 through line 3 to an acceptable value, enables the start valve 16 to be activated in the additional line 15, and the air from the cylinders 1 and 10 is additional line 15 through the inductor 17 enters the room 4, supplementing the air flow into the room 4 through line 3 through the inductor 8, which further increases the duration of the effective Noah rescue device. If there are several additional lines for supplying clean air to room 4, containing a start valve and a throttle (not shown), the switchgear 14 at additional intervals connects another flow valve in accordance with the next decrease in the flow of clean air into the room 4. By connecting an additional air flow in room 4, through an additional line 15 through the throttle 17, it is also possible to reduce the flow area of the throttle 8 and the initial air flow xa to room 4 via line 3 through throttle 8. Thus, the presence of at least one additional line 15 allows the selection of throttles 8 and 17 to reduce the working range of the dispersion of air flow and, accordingly, reduce the maximum pressure in room 4, at This also reduces the loss (consumption) of air through the seals of the door 5 and window 6, which additionally provides an increase in the time for effective protection of people in the room 4. Filters 9 protect the chokes 8 and 13 from clogging with solid particles during corrosion of elements to For instructions rescue device or ice particles from clogging with decreasing temperature in the cylinders 1 and 10 and freezing the water contained in the air. Thus, the filters 9 contribute to maintaining a stable flow rate characteristics of the rescue device and increase its service life.

Claims (5)

1. The way to save people in the room with external air pollution, which involves activating the starting device and supplying excess pressure to the clean air room through the supply line, characterized in that it is pre-charged to the high pressure tank before the clean air is fed into the room. 2. The method according to claim 1, characterized in that when the air is supplied from the high-pressure vessel by means of a control device, the required flow rate is maintained. 3. The method according to claim 1 or 2, characterized in that when the air flow is reduced to an acceptable value, an additional high pressure tank is connected to the supply line. 4. A device for rescuing people in a room with external air pollution, containing a source of excess pressure of clean air in communication with the room through a supply line equipped with a starting device, characterized in that the supply line is equipped with a throttle, the starting air supply device is made in the form of a starting valve, source excess pressure of clean air consists of the main and at least one additional parts, each of which is made in the form of at least one pre-charged ba a high-pressure lone with a charging valve, while the main part is connected to the supply line in front of the start valve and the throttle, the additional part is connected to the supply line in front of the throttle through its own start valve, and the rescue device contains a dispenser for activating the start valve of the additional part of the pressure source after reduction air flow into the room to an acceptable value. 5. The device according to claim 4, characterized in that the supply line in front of the throttle is connected to the room with at least one additional line containing the start valve and throttle, and the switchgear is arranged to activate the start valve of the additional line after the start valve of the additional parts of the pressure source and reducing the air flow into the room to an acceptable value.

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