RU50841U1 - PULSE AUTOMATIC POWDER FIRE EXTINGUISHING MODULE - Google Patents

Abstract

The invention relates to fire fighting equipment, namely, powder fire extinguishing means for extinguishing fires in industrial facilities, warehouses, transport and in everyday life. When using the proposed pulsed automatic fire extinguishing module, a uniform distribution of the extinguishing powder over the maximum possible area and in the volume of the protected room is created in a pulse (within a time of less than 0.1 s), which leads to the extinguishing of the fire at the very early stage of fire development. The specified technical result is achieved in that the pulsed automatic module for powder fire extinguishing, contains a sealed enclosure with a lid, fire extinguishing powder, a chamber with a gas-generating charge and an electric activator fixed in the lid, the enclosure is made in the form of a hemisphere or ball segment, or a cylinder turning into a hemisphere or ball segment , with sections of weakened cross-section, with the direct and inverse ratios of the diameter of the housing and the diameter of the lid being from 0.1 to 1.0, and the direct and inverse ratios of the height of the housing and the height of the lid from 0.01 to 100, and the portions of the weakened section formed as profiling of notches, the depth of which is from 0.01 to 0.5 thickness of the body, and the width of cuts of 1.0 to 2.0 thickness of the body. The housing with the cover is rigidly connected, for example by a rolling ring. The rolling ring may be provided with a vertical shoulder, the total length of which is from 0.4 to 1.0 of the length of the rolling ring. The ratio of the wall thickness of the housing to the thickness of the lid is 1: (1-15), which is preferred. Profiled notches are made on the outer or inner side of the body in the form of radial grooves or at least one spiral-shaped groove. The cover may be flat or convex. At the same time, initiating means connected in addition to the gas-generating cord with a gas-generating charge can be additionally placed inside or outside the housing.

Description

The invention relates to fire fighting equipment, namely, powder fire extinguishing means for extinguishing fires in industrial facilities, warehouses, transport and in everyday life.

A device for powder fire extinguishing (US Pat. RF No. 2085235 class. A 62 C 13/22, published in 1997) pulse action. The device comprises a cylindrical body filled with a fire extinguishing powder with a bottom, a unit with a pyrotechnic charge and an igniter, separated from the powder by a perforated piston, and a cover sealing the body.

The reasons that impede the achievement of the required technical result when using this invention include the fact that when ejected, the powder is not sprayed, but ejected in the form of a compact jet, and the piston may become stuck in the intermediate position due to the friction of the piston against the housing walls, which will increase the remainder of the powder in case. In addition, this device does not have a self-triggering mode.

A device is known "Powder extinguisher" (US Pat. RF No. 2082472 class. A 62 C 13/22, publ. 1997 g), which consists of a housing, cover, with a certain ratio of their thicknesses. A fire extinguishing powder and an initiating substance are placed inside the housing when filling the housing from 90% to 99%. The device is self-executing.

The disadvantages that prevent the use of this fire extinguisher is the lack of operation from the electric start.

Known automatic powder fire extinguisher (US Pat. RF 2147902, CL. A 62 C 13/22, publ. 1992), which provides automatic operation, both under the condition of an electric start, and under the condition of self-operation. This device contains a sealed enclosure with a lid filled with fire extinguishing powder, a chamber with a gas-generating charge and an electric activator is mounted in the lid, the ratios of the volumes of the casing and the chamber are determined, as well as the ratios of the area of the gas outlet openings of the chamber and the surface area of the gas-generating charge.

Additionally, an initiating powder connected to a gas-conducting cord with a gas-generating charge can be placed in the housing.

The disadvantages that impede the use of the known device include a small probability of uptime.

Thus, the urgent task is to create a pulsed module for powder fire extinguishing, which ensures reliable operation, uniform distribution of fire extinguishing powder over the maximum possible area of the protected room.

The invention is aimed at solving this problem, the object of which is a pulse automatic module for powder fire extinguishing.

The closest device to the claimed technical solution for the combination of essential features and the technical result achieved is an automatic powder fire extinguisher (US Pat. RF No. 2147902 class. A 62 C 13/22), which is selected as a prototype.

The essence of the proposed technical solution lies in the fact that when using the proposed pulsed automatic fire extinguishing module, a uniform distribution of the extinguishing powder over the maximum possible area and in the volume of the protected room is created pulse (over a period of less than 0.1 s), which leads to extinguishing the fire early stages of fire development.

Moreover, this technical result is provided in the self-triggering mode for one of the factors accompanying the fire, for example, for temperature. The full discharge of the extinguishing powder and the reliability of the module is ensured by a certain ratio of the geometric parameters of the housing and the cover, which was determined by calculation and experimental means.

The presence of notches on the module body in the form of radial or spiral grooves, their number, depth and width of the grooves allow you to adjust the direction of the spray torch, its uniformity, as well as the intensity of the powder composition to the protected area or volume of the room. The combination of all the essential features ensures high reliability of operation.

The specified technical result is achieved in that a pulsed automatic module for powder fire extinguishing, comprising a sealed enclosure with a lid, fire extinguishing powder, a chamber with a gas-generating charge and an electric activator fixed in the lid, the enclosure is made in the form of a hemisphere or a spherical segment, or a cylinder turning into a hemisphere or spherical segment , with sections of weakened section, characterized in that the ratio of the diameter of the housing and the diameter of the lid is from 0.1 to 1.0, and the ratio of the height of the housing and the height of the lid co ulation from 0.01 to 100, and the portions of the weakened section formed as profiling of notches, the depth of which is from 0.01 to 0.5 thickness of the body, and the width of cuts of 1.0 to 2.0 thickness of the body.

The housing with the cover is rigidly connected, for example by a rolling ring.

The rolling ring may be provided with a vertical shoulder, the total length of which is from 0.4 to 1.0 of the length of the rolling ring.

The ratio of the wall thickness of the housing to the thickness of the lid is from 1: 1 to 1:15, which is preferred.

Profiled notches are made on the outer or inner side of the housing in the form of radial grooves or at least one spiral-shaped groove.

The cover may be flat or convex.

At the same time, initiating means connected in addition to the gas-generating cord with a gas-generating charge can be additionally placed inside or outside the housing.

The housing and the cover can be made of the same material or of different materials, and the module is made with the possibility of hanging installation and fastening.

The rolling ring connecting the body and the cover, in order to increase the angle of the spray nozzle, is equipped with a vertical shoulder in which cutouts can be made to its entire height, the total length of which does not exceed 0.4 of the length of the perimeter of the vertical shoulder.

The proposed utility model is unknown from available sources of information, does not explicitly follow from the prior art and is industrially applicable as an automatic means of protection against fire, that is, it meets all the criteria of patentability in accordance with applicable law.

The proposed utility model is illustrated by drawings.

Figure 1 presents in section a General view of a pulsed automatic powder module powder fire extinguishing, where:

1 - housing;

2 - cover;

3 - fire extinguishing powder;

4 - camera;

5 - gas vents;

6 - gas generating charge;

7 - electroactivator.

Designations accepted: case diameter -D ₁ ; case height - H ₁ ;

cap diameter - D ₂ ; cover height -N ₂ ; wherein D ₁ / D ₂ = 0.1-1.0; H ₁ / H ₂ = 0.01-100.

Case Thickness - Z ₁ ; cover thickness - Z ₂ ; notch depth h; notch width - a; rolling ring length - L; shoulder length - L ₁ .

Figure 2 presents a bottom view of the housing with made profiling notches - 8, in the form of radial or spiral grooves.

On Fig, 3 presents in section a General view of a pulsed powder module with a particular case of placement of the initiating means in the form of powder inside the housing, where:

9 - initiating agent;

10 - fire-retardant cord.

Figure 4 presents a General view of the module, where 11 is a rolling ring, and 12 is a shoulder with cutouts.

As a fire extinguishing powder, substances are decomposed when heated with evolution of gases, for example, Pirant-A (TU 301-00-10-90) or PSB-3 (TU 6-18-139-83).

As a gas-generating charge, for example, the composition of the BEPT TU 4854-002-17191106-96 is used.

As the initiating powder, any known blowing agent is used (for example, azodicarbonamide TU 6-03-408-80, known under the trademark ChKhZ-21). Fire-resistant cord according to TU ХО PC 01 001-91. The pulse automatic module has two start modes: electrical and thermochemical (self-triggering). In an electrical start-up, the module operates as follows. When an electric signal arrives at a gas-generating charge (6) and an electric activator (7) (for example, from fire detectors), it starts to work and emit gases entering the internal volume of the housing (1), which loosen the extinguishing powder (3). As a result of gas evolution, the pressure inside the module increases. When the calculated pressure level is reached, the housing (1) opens along the notches (8) and, under the influence of excessive pressure, the extinguishing powder (3) is pulsed out at a high speed into the protected room.

To ensure uniform spraying of the powder in space and the opening of the housing along the notches, the housing is made in the form of a hemisphere, or a spherical segment or cylinder moving into a hemisphere or spherical segment, with sections of weakened section, taking into account the fact that the ratio of the diameter of the housing (D ₁ ) and the diameter of the cover (D ₂ ) are from 0.1 to 1.0, and the ratio of the height of the body (H ₁ ) and the height of the cover (H ₂ ) is from 0.01 to 100, and the sections of the weakened section are made in the form of profiling notches, depth (h ) which is from 0.01 to 0.5 of the thickness of the body, and width (a) of notches from 1.0 to 2.0 of the thickness of the body.

If these ratios are violated, an incomplete opening of the case (1) is observed, uneven distribution of the extinguishing powder on the protected area and, as a consequence, a decrease in the reliability of fighting fires on the protected object.

To confirm the achieved technical result, tests were carried out in accordance with the methods presented in the fire safety standards NPB 67-98 “Automatic powder fire extinguishing installations. Modules General technical requirements. Test Methods. " The nature of opening the lid along the notches was fixed and the result of extinguishing model fires (gasoline) on a maximum example was carried out for at least 3 tests. Plus in the table (+) means a positive result (quenching is achieved, full opening of the lid is ensured), (-) a negative result (quenching is not achieved, partial opening of the lid). Table 1 presents the parameters of the modules and the results obtained on experimental samples in identifying the optimal characteristics, while

the dimensions of the diameter of the body (D1) and the cover (D2) of the height of the body of the body (H1) and the cover (H2) were varied, subject to certain ratios between them, while the thickness of the body was fixed and equal to Z ₁ = 1.2 (mm).

The test results shown in table 1, indicate the achievement of the claimed technical result (example 1-4), and control examples (5-14) confirm the validity of the choice of the ratio of the geometric parameters of the housing (D ₁ and H ₁ ) and the cover (D ₂ and H ₂ ), and the depth (h) and the width (a) of the notches.

The effectiveness of the module in some cases depends on the ratio of the wall thickness of the housing and the cover, which should be in the range from 1: 1 to 1:15.

With a ratio of more than 1: 1, the module will only work due to destruction of the cover (2), and with a ratio of less than 1:15, it is impossible to provide the required depth of notches in the thin material of the body, which affects the efficiency of the powder discharge.

For effective powder ejection, radial or spiral-shaped notches in the form of grooves are made at the bottom of the housing from the outside or inside, dividing the housing into several petals with groove depths of 0.01 to 0.5 of the thickness of the housing and a width of 1.0 to 2.0 from the thickness of the body.

When the depth of the grooves is less than 0.01 of the thickness of the body, the module does not work reliably due to the uneven opening of the petals, and when the depth is more than 0.5, the intensity of powder ejection from the body decreases, and therefore the extinguishing efficiency. When the width of the grooves is less than 1.0 thickness of the housing, the module does not work reliably, as well as when the width is more than 2.0 thickness of the housing: due to the inability to control the depth of the groove along its entire width.

To ensure the maximum opening angle of the powder cloud without tearing off the housing petals when the module is activated, the housing (1) and the cover (2) can be connected, for example, by a rolling ring (11) with a vertical shoulder (12), in which cutouts can be made in a multiple of the number of petals with a total length of cuts not exceeding 0.4 of the length of the perimeter of the rolling ring (vertical collar). If the total length of the shoulder is less than 0.4 of the length of the rolling ring, then separation of the petals is observed, and therefore the required opening angle for ejecting the powder is not achieved.

The launch of the module in self-operation mode is as follows. When the module reaches a certain temperature level on the case (1) (for example, 80-90 ° С), due to heat transfer through the wall of the case (1), the temperature is transferred to the mass of the initiating substance (9) and a chemical reaction begins with a sharp increase in temperature, which leads to to ignition of the fire-resistant cord (10), which transmits a thermal pulse to start the gas generator (6). In the future, the operation of the module as well as in the electric start mode.

To reduce the inertia of the module in self-operation, the module housing is made of metal with a high coefficient of thermal conductivity, for example, copper, aluminum. Reliability of module operation in self-operation mode is ensured by the fact that the initiating substance (9) is placed in a sealed enclosure that excludes the contact of the initiating substance (9) with extinguishing powder (3), and the flame-retardant cord (10) is also laid through the sealed channel.

The fire tests of powder fire extinguishing modules installed in the room at an altitude of 2.5-3.0 m and the fire center of the 13V class located beneath them in the automatic start mode showed 100% fire extinguishing ability of 50 prototypes. Self-operation under the conditions described above occurs after 100-120 s. after setting fire to the fire. Tests have confirmed the need to comply with the indicated ratios of the geometric parameters of the housing and the cover to ensure the full discharge of the extinguishing powder and high reliability of the module.

Therefore, the proposed utility model is aimed at achieving the specified technical result.

Claims (9)

1. Pulse automatic module for powder fire extinguishing, comprising a sealed enclosure with a lid, fire extinguishing powder, a chamber with a gas-generating charge and an electric activator fixed in the lid, the enclosure is made in the form of a hemisphere or a spherical segment or cylinder turning into a hemisphere or spherical segment with sections of weakened section, different the fact that the ratio of the diameter of the case and the diameter of the cover is from 0.1 to 1.0, and the ratio of the height of the case and the height of the cover is from 0.01 to 100, and the sections of the weakened section are filled in the form of profiling notches, the depth of which is from 0.01 to 0.5 of the thickness of the body, and the width of the notches is from 1.0 to 2.0 of the thickness of the body. 2. Pulse automatic powder fire extinguishing module according to claim 1, characterized in that the housing with the cover is rigidly connected by a sealed ring. 3. Pulse automatic powder fire extinguishing module according to claim 2, characterized in that the rolling ring is provided with a vertical bead, the total length of which is from 0.4 to 1.0 of the length of the rolling ring. 4. The pulsed automatic powder fire extinguishing module according to claim 1, characterized in that the ratio of the thickness of the housing to the thickness of the lid is from 1: 1 to 1:15. 5. Pulse automatic powder fire extinguishing module according to claim 1, characterized in that the profiled notches are made on the outer or inner side of the housing in the form of radial grooves or at least one spiral groove. 6. Pulse automatic fire extinguishing module according to claim 1, characterized in that the cover is made flat or convex. 7. The pulsed automatic powder fire extinguishing module according to claim 1, characterized in that initiating means additionally placed inside or outside the module are connected by a fire-conducting cord with a gas-generating charge. 8. Pulse automatic fire extinguishing module according to claim 1, characterized in that the housing and the cover are made of the same material or of different materials. 9. The pulsed automatic powder fire extinguishing module according to claim 1, characterized in that the module is configured to be suspended and mounted.