RU2819770C1 - Method for reducing inertia of sprinkler irrigator actuation and device for its implementation - Google Patents

Abstract

FIELD: fire extinguishing.

SUBSTANCE: group of inventions relates to a method of reducing inertia of sprinkler irrigator actuation and a device for its implementation. Inventions are applicable in automatic water and foam fire extinguishing installations equipped with water and foam irrigators with heat-sensitive elements of a thermal lock, made in the form of glass bursting thermal flasks, having a sprayer made in the form of a housing and a socket and directed by the socket vertically downwards. Application is limited to rooms with height of up to 20 m. Method is characterized by the following steps: connecting a heat-collecting plate of a square shape, having a central hole coaxially with the irrigator, with a welded coupling; controlling horizontal position of heat-collecting plate using construction level, at that, ensuring the alignment of the central hole and the sprinkler irrigator, which is installed in the welded coupling, the permissible deviation from coaxiality should be not more than 10 mm per 1,000 mm of the axis length; adjusting the distance from the heat-collecting plate to the lower outlet of the sprinkler irrigator, the distance should be in range of 40 to 80 mm; providing a gap between the welded threaded coupling and the heat collecting plate; providing an open circular gap between the heat-collecting plate and the sprinkler irrigator, open with possibility of passing concentrated convective heat flow in case of fire upwards coaxially with sprinkler, providing intensive heating by concentrated convective heat flow of heat-sensitive element of thermal lock of sprinkler irrigator. Device for method is made in form of concentrator of heat convective flows, comprising a horizontally located heat-collecting plate above a sprinkler irrigator with a socket installed in a welded threaded coupling, heat-collecting plate is made of square shape with central hole coaxially with sprinkler irrigator, diameter of the hole by a tolerance value of up to 40 % exceeds the maximum size of the cross section of the sprinkler irrigator, with the provision of an open circular gap between the heat-collecting plate and the sprinkler irrigator, heat-collecting plate is installed on the welded coupling by means of a clamp covering the cylindrical surface of the welded threaded coupling, and four tape suspensions symmetrically distributed along the coupling circumference, on the side of the central part of the heat-collecting plate the ends of the suspensions are bent and coupled with the clamp and fixed on it by means of screw connections, the suspensions are directed to the peripheral part of the heat-collecting plate, on the peripheral side the ends of the suspensions are bent and conjugated with the heat-collecting plate and fixed on it by means of fasteners, such as rivets or self-tapping screws.

EFFECT: invention discloses a method of reducing inertia of sprinkler irrigator actuation and a device for its implementation.

2 cl, 2 dwg

Description

The method is applicable in automatic water and foam fire extinguishing installations equipped with water and foam sprinklers with heat-sensitive elements of a thermal lock, made in the form of glass rupture thermoflasks having a sprayer made in the form of a body and a socket and directed vertically downward with the socket. Use is limited to rooms up to 20 m high.

In the standby mode of operation of the sprinkler, the thermoflask is installed in a tense state and ensures that the shut-off valve is kept in the locked position. In the event of a fire, under the influence of an increase in temperature, the thermoflask is destroyed, releases the shut-off valve, and opens the outlet of the sprinkler, which helps extinguish the fire in the protected area of the sprinkler.

However, in a number of cases, the temperature increase during a fire develops quickly, and the processes occurring in the thermoflask and leading to its destruction occur slowly (for example, when the height of the installation of sprinklers increases), which leads to delayed operation of the sprinkler and, as a result, leads to the uncontrolled development of a fire beyond the protected area of the sprinkler.

In addition, according to clause 6.2.11 SP 485.1311500.2020, sprinklers may be used if the distance from the center of the thermosensitive element of the sprinkler thermal lock to the ceiling plane does not exceed 0.4 m. If this distance exceeds 0.4 m, it is necessary to use special design solutions that confirm that when the sprinkler is activated, the fire will not spread beyond the area of its irrigation at the required irrigation intensity.

The use of additional heat collectors (screens) can increase the efficiency of sprinkler systems and ensure compliance with the requirements of clause 6.2.11 of SP 485.1311500.2020.

Horizontally located thermal collectors (pots, caps, cones, etc.), under which vertically located sprinklers are installed, are known from the prior art.

In the event of a fire, thermal collectors are designed to accumulate the heat of convective flows in the area of the sprinkler, contributing to an increase in temperature near the sprinkler and faster heating of the temperature-sensitive element of the sprinkler shut-off device, which is triggered when the temperature in the protected room reaches a level above the control level.

Thermal collectors operate in the manner described above, considered as analogues of the proposed invention, protected by patents: JP 2013106743A, JPH 08155050A, KR 101063857 B1, US 2019329080 A1.

One of the disadvantages of analogues may be the phenomenon when, in the event of a fire, “stagnant” (“dead”) zones appear in the thermal collector - areas of space in which heated air and smoke are retained, while the inactive heated air slows down the heating of the temperature-sensitive element of the sprinkler shut-off device sprinkler, which does not allow to fully reduce the response time of the sprinkler sprinkler.

Another common disadvantage of analogues is the method of fastening (installation) of the heat collector structure, which is characterized by fastening it directly to the sprinkler or characterized by fastening the heat collector using additional auxiliary elements on the sprinkler itself.

In both cases, attaching a thermal collector to a sprinkler causes additional mechanical stress, for example, due to shaking or vibration, which reduces the reliability of the sprinkler and leads to an increase in the likelihood of an emergency leak.

The closest analogue, taken as a prototype, is a heat collector made according to the patent JP 2013106743 A 2013.6.6.

The prototype has a horizontally located disk heat collection plate with a central hole above the sprinkler. In the central hole, which is made coaxially with the sprinkler, which is installed with the outlet hole down and screwed into a threaded coupling welded to the pipeline of the fire extinguishing installation, there is a structure holding the heat collection plate, the structure is installed on the threaded fitting part of the sprinkler, between the sprinkler and the central There is no free gap with the hole, allowing convective heat flows to pass unhindered through the plate to the top.

The prototype is characterized by both of the above-described disadvantages:

- the possibility of the formation of a “stagnant” zone, which slows down the heating of the temperature-sensitive element of the sprinkler;

- installation of the heat collection plate by means of a holding structure directly to the sprinkler, which increases the load on the threaded connection of the sprinkler with the coupling and reduces the reliability of the connection.

The objective of the proposed new method and device for its implementation is to reduce the response inertia of the sprinkler, with the ability to maintain the characteristics (indicators) of the reliability of the sprinkler, such as resistance to vibration and shock.

The method is used to reduce the response inertia of a sprinkler, which is installed vertically with the socket down in a welded threaded coupling included in the distribution pipeline network of an automatic fire extinguishing installation.

The method is characterized by the following steps:

- connect a horizontally installed heat-collecting plate, made of a square shape, having a central hole, with a welded coupling;

- control the horizontal position of the heat collection plate using a building level, while ensuring the alignment of the central hole and the sprinkler, which is installed in the welded coupling, the permissible deviation from alignment should be no more than 10 mm per 1000 mm of axis length;

- adjust the distance from the heat collection plate to the underlying sprinkler outlet, the distance should be in the range from 40 to 80 mm;

- provide a gap between the welded threaded coupling and the heat collection plate, while the diameter of the central hole must exceed the maximum cross-sectional size of the sprinkler by a tolerance of up to 40%;

- provide an open circular gap between the heat-collecting plate and the sprinkler, open with the possibility of passing a concentrated convective heat flow in the event of a fire upward coaxially with the sprinkler, providing intense heating by the concentrated convective heat flow of the thermosensitive element of the sprinkler's thermal lock.

A device for implementing a method for reducing the response inertia of a sprinkler, containing a horizontally located heat-collecting plate with a central hole above the sprinkler with a socket pointing down, installed in a welded threaded coupling, according to the invention, has a heat-collecting plate made of a square shape with a central hole coaxial with the sprinkler , the diameter of the central hole is up to 40% larger than the maximum cross-sectional size of the sprinkler, ensuring an open circular gap between the heat-collecting plate and the sprinkler, the heat-collecting plate is installed on a welded threaded coupling using a clamp covering the cylindrical surface of the coupling and four belt hangers , symmetrically distributed around the circumference of the coupling, from the side of the central part of the heat-collecting plate, the ends of the suspensions are bent and mated to the clamp and fixed on it by means of screw connections, the suspensions are directed to the peripheral part of the heat-collecting plate, from the peripheral side the ends of the suspensions are bent and mated to the heat-collecting plate and fixed to it using fastening elements (for example, rivets or self-tapping screws).

The composition and operation of the proposed invention is illustrated by drawings in Fig. 1 and fig. 2.

Fig. 1 - general perspective view onto the top of a square heat collection plate mounted above the sprinkler with the rosette facing down, and a piece of piping with a welded threaded socket.

Fig. 2 - general perspective view on the lower part of the heat collection plate installed above the sprinkler with the socket down, and part of the pipeline with a welded threaded coupling.

A device for implementing a method for reducing the response inertia of a sprinkler, operating as a concentrator of thermal convective flows, containing a horizontally located heat-collecting plate 1 above the sprinkler 2 with a socket 3 directed downward, installed in a welded threaded coupling 4, the heat-collecting plate is made of a square shape with a central hole 5 coaxially with the sprinkler, the diameter of the central hole exceeds the maximum cross-sectional size of the sprinkler by a tolerance of up to 40%, ensuring an open circular gap 6 between the heat-collecting plate and the sprinkler, the heat-collecting plate is installed on a welded threaded coupling using a clamp 7 covering the cylindrical surface coupling, and four tape suspensions 8, symmetrically distributed around the circumference of the coupling, from the side of the central part of the heat collection plate, the ends 9 of the suspensions are bent and mated with the clamp and fixed on it by means of screw connections 10, the suspensions are directed to the peripheral part of the heat collection plate, from the peripheral side the ends 11 suspensions are bent and mated to the heat-collecting plate and fixed on it by means of fasteners 12.

Reducing the response inertia of a sprinkler is provided by a method that is characterized by the following steps:

- connect a horizontally installed square-shaped heat-collecting plate 1, having a central hole 5, with a welded coupling 4;

- control the horizontal position of the heat collection plate using a building level, while ensuring the alignment of the central hole 5 and the sprinkler 2, which is installed in the welded coupling, the permissible deviation from alignment should be no more than 10 mm per 1000 mm of the axis length;

- adjust the distance from the heat collection plate to the underlying outlet 3 of the sprinkler, the distance should be in the range from 40 to 80 mm;

- provide a gap between the welded threaded coupling and the heat collection plate, while the diameter of the central hole must exceed the maximum cross-sectional size of the sprinkler by a tolerance of up to 40%;

- provide an open circular gap 6 between the heat-collecting plate and the sprinkler, open with the possibility of passing a concentrated convective heat flow in the event of a fire upward coaxially with the sprinkler, providing intense heating by the concentrated convective heat flow of the thermosensitive element of the sprinkler's thermal lock.

The proposed method allows convective heat flows of heated gases in the event of a fire, directed upward, to accumulate under the heat collection plate, concentrate and direct the flows into the central hole, coaxially with which a sprinkler sprinkler is installed in a threaded coupling, while an open circular gap is made between the heat collection plate and the sprinkler sprinkler , through which a concentrated flow of accumulated heat rushes upward, providing intense heating of the temperature-sensitive element of the sprinkler, leading to its accelerated response.

The fundamental differences from analogues of the proposed device for implementing a method for reducing the response inertia of sprinkler 2 are:

- there is a central hole 5 in the heat-collecting plate 1, coaxially with which the sprinkler 2 is placed to form an open circular gap 6 between the heat-collecting plate and the sprinkler, which ensures that the temperature-sensitive element of the sprinkler's thermal lock is blown with a concentrated thermal convective flow;

- in the installation of a heat-collecting plate on a welded threaded coupling 4, excluding direct contact of the heat-collecting plate with a sprinkler, which has only a standard (usual) threaded connection through a welded threaded coupling with a source of fire extinguishing agent (pipeline of the distribution network of a fire extinguishing installation), which eliminates the appearance of additional mechanical impact on the sprinkler.

When analyzing a technical solution aimed at increasing the reliability of the sprinkler, new elements, new locations and connections were identified, representing a new set of characteristics with the achievement of a technical positive result, and this does not clearly follow from the prior art.

Full-scale fire tests carried out to assess the effectiveness of the operation of sprinklers together with the declared device, which operates as a concentrator of thermal convective flows and is a heat-collecting square plate with a central hole, when installed in accordance with clause 6.2.11 of SP 485.1311500.2020 showed the following results:

1) the concentrator of thermal convective flows ensures the response time of the burst thermoflask of the sprinkler is 1.5-2 times less than that of a sprinkler without a concentrator;

2) the absence of a central hole in the heat-collecting plate reduces the efficiency of operation of the sprinkler thermoflask, since in this case the heated gases from the fire are retained at the initial stage of fire propagation in the area under the plate with the formation of the so-called “dead” zone, thereby reducing the efficiency of heating the thermoflask.

Thus, the tests carried out confirm that the proposed product is aimed at solving the problem of effective operation of sprinklers (reducing activation time) when installed in high-rise rooms up to 20 m, when the distance from the ceiling level to the center of the thermosensitive element of the sprinkler thermal lock exceeds a value of 0.4 m (to meet the requirements of clause 6.2.11 SP 485.1311500.2020), achieves the desired result.

The proposed method for reducing the response inertia of a sprinkler and the device for its implementation ensures a reduction in the activation time of the thermosensitive element of the sprinkler's thermal lock from 1.5 to 2 times, and the central hole makes it possible to speed up the process of activation of the thermoflask due to the passage of concentrated convective heat flow and more intense blowing sprinkler and eliminate the presence of a “dead” zone, while the mounting design of the device for implementing the method does not cause additional mechanical load on the sprinkler.

Claims (6)

1. The method of reducing the response inertia of a sprinkler is characterized by the following steps: - connect a horizontally installed square-shaped heat-collecting plate having a central hole with a welded coupling; - control the horizontal position of the heat collection plate using a building level, while ensuring the alignment of the central hole and the sprinkler, which is installed in the welded coupling, the permissible deviation from alignment should be no more than 10 mm per 1000 mm of axis length; - control the distance from the heat collection plate to the underlying sprinkler outlet, the distance should be in the range from 10 to 50 mm; - provide a free open space between the heat-collecting plate and the sprinkler, open with the possibility of passing through the hole in the heat-collecting plate a concentrated convective heat flow in the event of a fire, upward coaxially with the sprinkler. 2. A device for implementing a method for reducing the response inertia of a sprinkler according to claim 1, containing a heat collection plate with a central hole for horizontal placement above the sprinkler with a socket pointing down, installed in a welded threaded coupling, characterized in that the heat collection plate is made of a square shape with a central hole configured to be coaxially positioned with a sprinkler, providing an open circular gap between the heat-collecting plate and the sprinkler, exceeding the diameter of the central hole by a tolerance of up to 40% of the maximum cross-sectional size of the sprinkler, wherein the device contains a clamp configured to covering the cylindrical part of the welded threaded coupling, and four tape hangers, while on the side of the central part of the heat-collecting plate, the ends of the hangers are bent and mated with a clamp and fixed on it by means of screw connections, the hangers are directed to the peripheral part of the heat-collecting plate, on the peripheral side the ends of the hangers are bent, are coupled to the heat-collecting plate and fixed to it by means of fasteners.

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