RU136206U1 - INDICATOR OF RESERVE TIME FOR CONSERVATION OF HUMAN CONSCIOUSNESS UNDER CONDITIONS OF HYPOXIC HYPOXIA - Google Patents

Abstract

1. The indicator of the backup time of preservation of consciousness by a person in conditions of hypoxic hypoxia, including a barometric pressure sensor in the surrounding gas environment, a calculator, a comparator, a battery, a power supply interface connector, an information-control bus and a power supply bus, characterized in that it includes information storage device, which takes into account the dynamics of changes in barometric pressure in the surrounding gas environment when calculating the estimates of the reserve time for maintaining consciousness by a person, and the table , Which reflect the otsenku.2 in real time. The indicator according to claim 1, which additionally contains hands-free equipment that allows you to generate sound signals to attract the attention of a person when turning on and off the display. The indicator according to claim 1, which additionally contains an automatic on / off unit: the indicator is turned on when the barometric pressure in the surrounding gas environment is less than 50,000 Pa, and off when the barometric pressure in the surrounding gas environment is greater than or equal to 50,000 Pa. The indicator according to claim 1, which contains additional displays connected to the information-control bus and designed to inform the reserve time of preserving the consciousness of more people. The indicator according to claim 1, which contains an additional drive connected to the information and control bus and made in the form of a non-volatile memory, in which the measured values of barometric pressure in the surrounding gas medium are recorded in order to enable their use in the investigation�

Description

The proposed utility model relates to the field of life safety, and more specifically to ensuring human safety in emergency (emergency) situations associated with exposure to hypoxic hypoxia: depressurization of the cabin (cabin) or failure of the oxygen equipment of the aircraft in high-altitude (occurring at altitudes of more than 6500 m ) flights; failure of means (systems) of life support when staying in highlands (at altitudes of more than 6500 m); malfunctions of the oxygen equipment of the pressure chamber during research involving volunteers with barometric pressure values in the pressure chamber lower than barometric pressure at an altitude of 6500 m, etc.

In accordance with international regulations, in the event of a dangerous hypoxic gas environment in the cabin (cabin) of the aircraft, an automatic system is triggered, oxygen masks connected to the oxygen power supply system drop out of containers above the passenger seats. The passenger must pull up and put on the nearest oxygen mask, press it to the nose and mouth, fix the mask to the head with rubber mounts, then help put the oxygen mask on to other passengers and wait for instructions from the aircraft commander. At the same time, the passenger does not have information about the state of the surrounding gas environment, which does not allow assessing the real danger of life and leads to excessive nervousness, and, especially at the initial time after the loss of oxygen masks, to panic. Similar problems exist in other situations associated with a person's stay in hypoxic hypoxia.

Known solutions that are essentially close to the claimed utility model: an intelligent information system for the passenger cabin of an aircraft (patent RU No. 2473117 of 01/01/2010), an aircraft with an autonomous oxygen system (RF patent No. 2,337,858 of July 18, 2006) do not imply special informing passengers in emergency (emergency) situations related to the occurrence of a hypoxic gas environment in the passenger compartment.

The closest claimed utility model is a device for alarming the operation of oxygen equipment, for example, an airplane (patent SU No. 688253/40 dated 12/06/1960), including a special pressure gauge, which is adjusted so that its contacts close at a barometric pressure of 800- 1000 mm of water. Art. A negative voltage is applied to the lamp grid through normally closed relay contacts, as a result of which the lamp is locked, and the relay included in the lamp anode circuit does not work, and if the pilot stops consuming oxygen, the sensor contacts remain open, and after a strictly defined time, depending on flight altitude, the potential on the lamp grid will become equal to the lamp unlocking potential, it will open, the relay will trip and turn on the alarm system.

However, this device, in addition to using a morally and physically obsolete component base, has the following disadvantages:

- provides an alarm only about malfunctions of the oxygen equipment of the pilot, disconnection of the oxygen hose from the mask or loose fit of the mask to the face, but not about the depressurization of the cabin;

- does not provide calculation and indication of the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia upon cessation of breathing with oxygen;

- provides reliable hazard signaling only for conditions of stationary hypoxic hypoxia, that is, while maintaining a constant intensity of hypoxic exposure during the analyzed time interval.

The technical task of the proposed utility model is to provide a person with information about the amount of standby time for maintaining consciousness while in a hypoxic environment, the barometric pressure of which is less than the barometric pressure at an altitude of 6500 m, taking into account the previous dynamics of the change in barometric pressure in the surrounding gas environment.

The technical result consists in providing the possibility of calculating and indicating an objective assessment of the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia on the basis of a combination of uniformly measured values of barometric pressure in the surrounding gas environment, with the issuance of information about the amount of reserve time of preservation of consciousness by a person on the indicator board in real time.

The technical result is achieved by the presence in the indicator of the information storage device, which takes into account the dynamics of changes in barometric pressure in the surrounding gas environment when calculating the estimates of the reserve time for maintaining consciousness by a person, and a panel on which this estimate is displayed in real time.

In terms of the set of essential features, the claimed indicator of the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia differs significantly from the analogue, since:

- uses only one sensor - a barometric pressure sensor in the surrounding gas environment;

- provides a numerical indication of the assessment of the reserve time of preservation of consciousness by a person in hypoxic hypoxia in real time;

- the assessment of the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia is calculated taking into account the previous dynamics of changes in barometric pressure in the surrounding gas environment, which provides an adequate account of the conditions of non-stationary hypoxic hypoxia, and, therefore, the objectivity of the calculated estimate of the reserve time of preservation of consciousness by a person.

The developed indicator of the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia is illustrated by a figure (Fig. - Diagram of the indicator of reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia), on which his device is schematically presented and the components are indicated: 1 - sensor of barometric pressure in the surrounding gas environment, 2 - information storage device, 3 - calculator, 4 - comparator, 5 - battery, 6 - interface connector with the power supply network, 7 - indicator board, 8 - digital digits of the board, 9 - nformatsionnaya tire 10 - power bus.

The functioning of the indicator of the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia is as follows.

1) The indicator (see Fig.) Is placed so that its readings are visible to as many people as possible, and the barometric pressure sensor in the surrounding gas environment, which is part of the indicator, is not covered by foreign objects that can distort the measured values of barometric pressure.

2) After turning on the indicator, the readings are taken from the barometric pressure sensor in the surrounding gas environment with a frequency of 1 Hz (1 time per second), while the battery (the capacity of which ensures the indicator works for at least 8 hours after disconnecting from the power supply) is automatically charged from power supply via the interface connector, and the components of the indicator are powered through a common power bus.

3) The values of the barometric pressure in the environment from the sensor via the information-control bus go to the information storage device, which is a shift register of 300 cells. That is, no more than 300 barometric pressure measurements can be stored in the drive at the same time (which corresponds to measurements every second for 5 minutes) - 301 measurements are recorded instead of the first, 302 measurements - instead of the second, etc.

After the results of the first 300 measurements of barometric pressure in the surrounding gas medium are received in the information storage device, the calculator begins the dynamic calculation of the estimate of the reserve time of preservation of consciousness by a person t, s, according to the formula:

,

,

where P is the barometric pressure in the surrounding gas environment, Pa. The value P = 44060 Pa corresponds to the barometric pressure at an altitude of 6500 m, starting from which the probability of loss of consciousness by a person is considered non-zero.

5) The calculated estimate of the backup time for maintaining consciousness on the information-control bus goes to the comparator, where it is compared with a value of 300 s. If the calculated estimate of the standby time of consciousness is less than 300 s, then a signal is issued to turn on the indicator board. In digital digits, the indicator displays the calculated estimate of the backup time for maintaining consciousness by a person, which changes in real time with a resolution equal to the frequency of measuring barometric pressure in the surrounding gas environment (1 Hz). The inscriptions in Russian and English are highlighted simultaneously with the inclusion of the indicator panel and with the appearance of a calculated estimate of the reserve time for maintaining consciousness. If, when the indicator board is on, the calculated estimate of the reserve time for maintaining consciousness becomes greater than or equal to 300 s, then a signal is issued to turn off the indicator board.

The calculation formula for estimating the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia was obtained as a result of research on the grant of the Russian Foundation for Basic Research “Research on improving the technology of adaptive control of human-machine systems operating in conditions of a high risk of operator hypoxic conditions” (No. 12-08- 01273-a), during which it was verified as a result of a computational experiment conducted using these instruments s objective control obtained in the investigation of the causes of a real aviation incident related to depressurization of the cabin of the Tu-154 aircraft on May 18, 1998, and which showed high statistical reliability of the calculated estimates of the reserve time for maintaining consciousness by a person.

The developed indicator of the reserve time of preservation of consciousness by a person in conditions of hypoxic hypoxia can be used in aircraft, in flight operation of which there is a risk of depressurization of the cabin and / or cabin at altitudes of more than 6500 m; when conducting tests in pressure chambers with the participation of volunteers; while providing assistance to the wounded and injured in high altitude conditions and in other practical tasks related to the stay of a person in conditions of hypoxic hypoxia.

Claims (6)

1. The indicator of the backup time of preservation of consciousness by a person in conditions of hypoxic hypoxia, including a barometric pressure sensor in the surrounding gas environment, a calculator, a comparator, a battery, a power supply interface connector, an information-control bus and a power supply bus, characterized in that it includes information storage device, which takes into account the dynamics of changes in barometric pressure in the surrounding gas environment when calculating the estimates of the reserve time for maintaining consciousness by a person, and the table , Which reflect this estimation in real time. 2. The indicator according to claim 1, which additionally contains hands-free equipment that allows you to generate sound signals to attract the attention of a person when turning on and off the scoreboard. 3. The indicator according to claim 1, which further comprises an automatic on / off unit: the indicator is turned on when the barometric pressure in the surrounding gas environment is less than 50,000 Pa, and off when the barometric pressure in the surrounding gas environment is greater than or equal to 50,000 Pa. 4. The indicator according to claim 1, which contains additional displays connected to the information and control bus and designed to inform the reserve time of preserving the consciousness of more people. 5. The indicator according to claim 1, which contains an additional drive connected to the information and control bus and made in the form of a non-volatile memory, in which the measured values of barometric pressure in the surrounding gas medium are recorded to ensure their use in investigating the causes of an emergency (emergency) situation . 6. The indicator according to claim 1, the scoreboard of which, prior to the arrival of the start signal from the comparator, is illuminated by displaying the symbol "∞" in digital digits.

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