RU194182U1 - Powder fire extinguishing device - Google Patents

Abstract

A powder fire extinguishing device relates to the field of single-use fire fighting equipment, specifically to autonomous fire extinguishing devices in which a fire extinguishing agent is released by an explosion. A powder fire extinguishing device in which the casing is made of expanded polystyrene foam with a density of at least 30-35 kg / mi and has the appearance of a cylinder with beveled faces, while the faces are rounded at the corners, inside the casing there is a fire extinguishing agent and an initiating element made in the form of a pyrotechnic charge equipped with a group of fire-resistant cords, the ends of which are uniformly fixed on the outer surface of the device’s body, under a heat-shrinkable PVC film, insulating the body in several layers for protection you against damage and environmental influences.

Description

A powder fire extinguishing device relates to the field of single-use fire fighting equipment, specifically autonomous fire extinguishing devices, in which a fire extinguishing agent is released by an explosion.

A fire extinguisher, a pyrotechnic powder self-working one, was selected as the prototype (patent RU 2603573 dated 11.27.2016). A self-working pyrotechnic powder fire extinguisher has a body with a fire extinguishing agent and an initiating device made in the form of a pyrotechnic charge. The body of the fire extinguisher is made hollow in the form of one of the Platonic solids, inside of which there is a fire extinguishing substance and a pyrotechnic charge. The pyrotechnic charge is equipped with at least one ignition cord, the end of which is brought to the outer surface of the housing and fixed on it. The end of the ignition cord of the pyrotechnic charge is located arbitrarily over its entire surface and, for example, can be twice wrapped around the body.

The body is made of a blank of a certain shape based on the development of one of the Platonic solids, for example, in the form of a tetrahedron, or octahedron, or icosahedron, or hexahedron (cube), or dodecahedron. The housing is fixed in the assembled position by locks in the form of protrusions-valves interacting with the slots reciprocal to them, made in the scan of the housing. The fire extinguisher case may be made of cardboard, for example corrugated cardboard or a three-layer corrugated cardboard.

A heat shrink film is applied to the outer surface of the housing over the ignition cord of the pyrotechnic charge located on it.

The pyrotechnic charge is placed inside the housing in a suspended state, for example, due to the ignition cord and, for example, in the center of the housing. The pyrotechnic charge itself is made in the form of a firecracker.

As a fire extinguisher in a fire extinguisher, a fire extinguishing powder may be used.

The disadvantage of the device described above is that the proposed materials for the manufacture of the housing do not allow to maintain integrity when used by throwing it into the fire, because when dropped, the housing of the device is destroyed and it works inefficiently.

The disadvantages include the fact that the housing made of cardboard can cause re-ignition (fire), ignition of the housing may result from the burning of a fire-resistant cord or contact of the housing with the fire.

In addition, one pyro cord wrapped several times around the case is a design that does not allow to reduce the response time of the device in contact with fire to a minimum, namely up to 3 seconds.

The objective of the utility model is to expand the arsenal of technical means in the field of fire fighting equipment.

The technical result is to minimize the response time of the device and the uniform spraying of the extinguishing agent in the fire.

The technical result is achieved by a powder fire extinguishing device, which consists of a body of expanded polystyrene foam with a density of at least 30-35 kg / m ³ . The body is made in the form of a cylinder with beveled faces, while the faces are rounded at the corners, inside the body there is a fire extinguishing agent and an initiating element. The initiating element, made in the form of a pyrotechnic charge, equipped with a group of flame-retardant moisture-resistant cords, the ends of which are evenly fixed on the outer surface of the device’s body, under a heat-shrinkable PVC film that insulates the case in several layers to protect it from damage and environmental influences.

The utility model is illustrated by drawings 1-4:

In FIG. 1 shows a partial sectional view of the device.

In FIG. 2 shows a view of the “ledge-hollow" castle.

In FIG. 3 shows a view of a flame-retardant, moisture-resistant cords (illustrating the location of the initiating element inside the device).

In FIG. 4 shows a general view of a powder fire extinguishing device.

The general view of FIG. 4 illustrates in detail a device that has a housing 1 with a fire extinguishing agent 2 and an initiating element 3. The housing 1 of the device is hollow in the form of a cylinder, the faces of which are rounded with a beveled face, the faces of which are rounded, inside of which a fire extinguishing substance is placed 2 and the initiating element 3.

The initiating element 3 is equipped with at least one group of flame-retardant cords 4, the ends of which are displayed on the outer surface of the housing 1 and are fixed on it.

A heat shrink film (not shown) is deposited on the outer surface of the housing 1 over a flame-retardant cord 4 of the initiating element 3 located on it.

The initiating element 3 is placed inside the housing 1.

The ends of the groups of fire-resistant cords 4 of the initiating element 3, displayed on the outer surface of the housing 1, are located evenly on the surface of the housing 1.

The body 1 is assembled from parts made of materials with a density of at least 30-35 kg / m3, for example, from expanded polystyrene foam, forming a hollow body of the product.

In FIG. 1, the cavity of the housing 1 provides the accommodation of the standard amount of extinguishing agent 2 and the initiating element 3 for opening the housing 1 and uniformly spraying the extinguishing agent 2.

In figure 3, the housing is fixed in the assembled position by locks in the form of a protrusion 5 and a cavity 6.

The connections of the housing 1 are tight, eliminating the possibility of loss of mass of the extinguishing agent 2 and the ingress of moisture. Case 1 consists of lightweight materials that, when activated, will not cause damage to either property or people.

The initiating element 3 is located inside the housing 1, a group of flame-resistant cords 4 are connected to it, which are brought out and are fixed evenly on the outer surface of the housing 1 (the holes are sealed).

The housing 1 is filled with a fire extinguishing agent 2 through a filling hole (not shown), is sealed. After sealing and reaching the required amount of extinguishing agent 2, the opening is closed by a lid and sealed, and a heat-shrinkable polyvinyl chloride film is applied to the housing 1 to protect it from damage and environmental influences.

The device operates as follows:

The device is a disposable fire extinguishing agent designed to extinguish fires of the following classes:

fires of solid combustible substances and materials (A);

fires of flammable liquids or melting solids and materials (B);

gas fires (C);

fires of flammable substances and materials of electrical installations under voltage (E).

The condition for the operation of the device is the direct effect of fire on the flame-retardant cord 4, uniformly located over the entire area of the housing 1.

The principle of operation of the device: when in contact with fire, the flame wire 4 ignites and activates the initiating element 3. This leads to the opening of the housing 1 of the device. As a result of the destruction of the housing 1, the extinguishing agent 2 is sprayed in the ignition site.

The device is powered in two ways.

In the first method of use, a fire extinguisher is thrown by a person into a fire, and the device is triggered by the contact of the fireproof cord 4 with fire. The fire-resistant cord 4 is ignited and the fire reaches the initiating element 3 with a standard speed, which creates a pulse overpressure inside the housing 1, why open the housing 1 with the subsequent spraying of the extinguishing agent 2 into the volume of the fire source. With this method, the device is cylindrical in shape, the faces of the body in the form of a cylinder have a rounding, due to the fact that when using the device, the convenience of gripping it with one hand increases for its movement and use.

In the second method of use, the device is stationary in the place of a possible fire and independently fires when the flame of the fireproof cord is touched 4. Next, the principle of operation and the sequence of steps are identical to the first use case.

In stationary use, during manufacture, the external shape of the housing 1 can change, and it can be in the form of, for example, a ball (sphere) whose faces are rounded, or a cylinder with a beveled face, whose faces are rounded, or a cube whose faces are rounded , or parallelepiped.

The initiating element 3 is located inside the housing 1 and provides a safe and effective opening of the housing 1 and uniform spraying of the extinguishing agent 2 throughout the volume of the fire.

The proposed device is reliable to use, safe and effective in extinguishing a fire in the early stages of its development. With this embodiment of the device as a whole, it was possible to increase the reliability and efficiency of extinguishing fires. In this case, the powder fire extinguishing device is simple and convenient to use, it can be delivered to the fire with one hand, while not equipping the device with additional elements that complicate and weight the structure.

In addition, this embodiment of the device allows it to be used in places of welding in the far north (snow-warm-snow -...), use on ships and yachts, engine compartments of boats, all-terrain vehicles, that is, this embodiment of the device allows it store in harsh climatic conditions and, if necessary, quickly put into action.

Claims (1)

A powder fire extinguishing device, characterized in that the body of foamed polystyrene foam with a density of at least 30-35 kg / m ^{3 is} made in the form of a cylinder with beveled faces, while the faces are rounded at the corners, inside the body there is a fire extinguishing agent and an initiating element made in the form a pyrotechnic charge equipped with a group of flame-retardant moisture-resistant cords, the ends of which are evenly fixed on the outer surface of the device’s body, under a heat-shrinkable PVC film that insulates the body in several Loew to protect against damage and environmental influences.

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