RU151419U1 - SPRAY HEAD FOR FIRE EXTINGUISHING UNITS THIN SPRAYED UNDER HIGH PRESSURE LIQUID - Google Patents

Abstract

1. A spray head for fire extinguishing systems with high-pressure finely dispersed liquid, comprising a housing made in the form of a cylindrical stepped volumetric body, in the cylindrical part of which there is a chamber for supplying liquid under high pressure, equipped with filters and connected through an adapter that is installed coaxially with the housing, pipeline, and a chamber for swirling the fluid flow, paired with an outlet located in the center of the end wall of the housing, characterized in that the working hours Part of the spray head has two conical sections, one of which is made in the form of a truncated cone with an angle from 40 to 120 ° with removable nozzle inserts with outlet openings evenly placed on it, the second conical section is placed on the end wall of the spray head, the top of which faces the base a truncated cone, a removable nozzle insert has a cylindrical body with an outlet in the center of the end wall, in which there is a stepped hollow cylinder and a chamber for twisting the fluid flow, and for supplying liquid under high pressure, it is placed inside the stepped cylinder and communicates with the central fluid supply chamber located in the fitting located in the cylindrical part of the housing, the diameter of the base of the stepped hollow cylinder corresponds to the diameter of the internal cavity of the nozzle insert body, the second part of the stepped cylinder is made with a smaller diameter , carries holes and two slots in communication with the end wall, for supplying fluid to the fluid flow swirl chamber, swirl chamber

Description

The examination request dated 12/23/2013 for application No. 2013148609/12 The applicant CJSC TECHNOS-M + received 01/13/2014

In the Request, the Examination indicates to the Applicant the following:

1. The examination, referring to clause 9.8.1.4 (2) of the Rules, concludes that in the submitted application materials in the independent claim 1 of the utility model formula, several sets of essential features are traced, each of which ensures the achievement of its own technical result without achieving these aggregates of the overall technical result.

2. The examination draws the applicant's attention to the task (indicating, in this case, only the expansion of the arsenal of technical fire fighting equipment).

3. Examination, referring to clause 9.7.4.3 (1.2) of the Regulation, provided that when creating a utility model, the task is only to expand the arsenal of technical means, concludes that the essential features are the presence of a housing and an outlet, and the remaining signs relates to non-essential.

Having analyzed the inquiry of the Expertise, the Applicant does not agree with the conclusions of the Expertise and provides the following explanations on the above items of the Request.

1. The utility model presented to the examination relates to a device, namely a spray head for fire extinguishing systems with a high-pressure liquid, which corresponds to Article 1349 of the Code "Objects of Patent Rights", the essential features of which are reflected in the single-link formula of the utility model.

However, once again comparing the proposed solution and the prototype, the Applicant should note that the disadvantage of the prototype is the low fire extinguishing efficiency and significant water consumption when using

The first drawback indicated is due to the fact that the design of the known atomizer divides the flow of extinguishing fluid into two cone-shaped torches, located one in the other. In this case, the internal torch with a spray angle of about 60 ° has an arithmetic mean droplet diameter at a minimum pressure of not more than 100 microns, and an external stream with a spray angle of about 90 ° does not exceed 200 microns. The restriction of the internal finely divided zone of the water flow to the outer larger droplet zone does not allow the internal flow to be distributed over the entire area of the fire and to extinguish the foci of combustion located outside the outer cone, i.e. beyond 90 °. Thus, the main disadvantage of the known device is the limitation of the shape and area of irrigation from the jets of the expiring fire extinguishing liquid.

The second disadvantage of the known spray head is a significant flow of fluid. The known device has a large coefficient of performance, which at an operating pressure of the atomizer of 0.4-1.0 MPa gives a fluid flow rate of 68-108 l / min, which leads to a significant increase in fluid flow rate during fire fighting and causes great damage to property.

2. The technical result, which the claimed utility model is aimed at, is to increase the efficiency of fire extinguishing by the fine-dispersed flow of extinguishing liquid of the entire surface to be protected by expanding the irrigation area and increasing the spray angle to 180 °, as well as reducing the water consumption by reducing the productivity coefficient.

3. The technical result is achieved by the fact that in the spray head for fire extinguishing systems a high-pressure finely dispersed liquid containing a housing made in the form of a cylindrical step volumetric body, in the cylindrical part of which there is a chamber for supplying high-pressure liquid, equipped with filters and connected through an adapter which is installed coaxially to the housing, with a pipeline and a fluid flow swirling chamber, coupled to an outlet located in the center of the end the housing, the working part of the spray head has two conical sections, one of which is made in the form of a truncated cone with an angle from 40 to 120 ° with removable nozzle inserts with outlet openings evenly placed on it, the second conical section is placed on the end wall of the spray head, top which faces the base of the truncated cone, the removable nozzle insert has a cylindrical body with an outlet in the center of the end wall, in which a stepped hollow cylinder and a twisting chamber are placed the fluid flow, the high-pressure fluid supply chamber is located inside the stepped cylinder and communicates with the central fluid supply chamber located in the nozzle located in the cylindrical part of the housing, the diameter of the stepped hollow cylinder base corresponds to the diameter of the internal cavity of the nozzle insert body, the second part of the stepped cylinder is made with a smaller diameter, carries holes and two slots in communication with the end wall to supply fluid to the fluid swirl chamber , the chamber for swirling the fluid flow of the nozzle insert is formed by the inner conical end wall of the nozzle insert body and the end wall of the stepped cylinder, the central chamber of swirling the fluid flow is formed by the inner end wall of the nozzle body and a cylindrical cavity made on the end wall of the nozzle, while the walls of the cavity are provided with grooves, made with the same offset relative to the center of the cylindrical cavity. In this case, the central and side holes are made with an equal diameter from 0.8 to 1.5 mm. In this case, the spray head has at least four removable conical inserts, which are made collapsible.

The essence of the proposed technical solution is as follows.

Distinctive features of the spray head from the prototype are the equipment of the spray head with removable nozzle inserts, each of which contains a chamber for supplying water under high pressure and a swirling chamber for the fluid flow associated with the outlet, while the removable nozzle inserts are evenly placed on the housing of the spray head, made in in the form of a truncated cone with an angle from 40 to 120 °, as well as the execution of the end wall of the spray head in the form of a cone, the apex of which with a central outlet with another hole facing the base of the truncated cone, provided that the diameter of the outlet openings of the nozzle inserts is equal to the diameter of the central outlet, it is possible to obtain a fine stream of extinguishing fluid at different heights and increase the spray angle to 180 °;

- equipping the spray head with a fitting that contains a central chamber for supplying liquid under high pressure coupled to chambers for supplying liquid of removable nozzle inserts and a chamber for swirling the fluid flow, which is formed by the inner end wall of the housing with a central outlet and a cylindrical cavity made on the end wall the fitting, while the walls of the cylindrical cavity are equipped with grooves equally offset from the center of the cylindrical cavity, as well as structural features The performance of the fluid supply chambers and the swirl chambers of the fluid flow of the removable nozzle inserts ensures the production of a finely dispersed liquid with an arithmetic mean droplet diameter of 100-110 μm at a pressure of 4 MPa, to give the kinetic energy to the particles of the liquid spray sufficient to overcome convective combustion flows, to create a uniform finely dispersed stream spray extinguishing fluid and thereby expand the area of the irrigated surface and reach the surfaces of the combustion centers at all points of the protected volume. The proposed device is more economical to use compared to the prototype, the fluid flow rate of which is 68-108 l / min. The proposed technical solution provides the minimum required fluid flow rate from 5 to 30 l / min at a pressure of 4 MPa for effective fire extinguishing (as evidenced by fire tests), minimizes the damage from spilling large amounts of water. The proposed spray head allows you to create optimal conditions for its use in various fire extinguishing conditions for various categories of rooms and at different installation heights. The implementation of the spray head assemblies collapsible and removable facilitates its maintenance.

Introduction to the design of the spray head of new elements, as well as the special implementation of existing elements, can achieve the claimed technical result and significantly increase the efficiency of both the spray head and the fire extinguishing system as a whole.

Thus, the presented formula contains a set of features related to the device, which are essential features that ensure the achievement of a technical result, including features that characterize the generic concept and features that distinguish the claimed solution from the prototype.

The installation was tested using 16 pieces of the claimed sprayers when extinguishing a fire on an area of 60 m, the results are shown in the table. The check showed a high degree of atomization of the extinguishing agent (OTV) and, consequently, its high smoke-settling ability, providing a low consumption of OTT and a reduction in the time of extinguishing the fire.

Protected area Number of Sprayers Pressure in the vessel with OTV OTV consumption Duration of supply of OTV class. - AT. 60 m ² 16 pcs. 1.4 MPa 0.15 l / s 20 s

A device that provides a fine extinguishing agent (gas-liquid mixture of water with carbon dioxide), which can significantly intensify the process of cooling surfaces with high temperature, which reduces the consumption of the extinguishing agent and the time to eliminate the fire, will find application in fire fighting.

The proposed spray head was tested at the FSBI VNIIPO EMERCOM of Russia, which is confirmed by the test report "Determining the size of the droplets of gas-liquid fog obtained by triggering samples of sprayers produced by Technos-M +." The purpose of which was to determine the size distribution of droplets of gas-water flow obtained using the proposed spray from the central and side nozzles. The effect of fine dispersion of water with droplet size is based on the principle of swirling water jets leaving their nozzles at high speed under high pressure and the combined effects of a gas-water stream. The size distribution of droplets was determined by laser diffractometry at various pressurization pressures of the gas. The verification was based on the method of laser diffraction, in which the radiation scattered by the droplets of the spray is detected at different angles using a highly sensitive silicon detector. The particle size distribution is presented in the form of two graphs (Fig. 1 and Fig. 2) of the cumulative curve "Dependence of droplet size on pressurization. The histogram displays the result in the form of" dimensions in the range ". As a result of atomizer tests (central nozzle), the percentage of drops less than 101.22 microns for a boost pressure of 40, 60 and 80 atm was 43%, 61% and 82%, respectively, the percentage of drops less than 51.53 microns for a boost pressure of 40, 60 and 80 atm was 11%, 17% and 42% respectively.

Claims (3)

1. A spray head for fire extinguishing systems with high-pressure finely dispersed liquid, comprising a housing made in the form of a cylindrical stepped volumetric body, in the cylindrical part of which there is a chamber for supplying liquid under high pressure, equipped with filters and connected through an adapter that is installed coaxially with the housing, pipeline, and a chamber for swirling the fluid flow, paired with an outlet located in the center of the end wall of the housing, characterized in that the working hours Part of the spray head has two conical sections, one of which is made in the form of a truncated cone with an angle from 40 to 120 ° with removable nozzle inserts with outlet openings evenly placed on it, the second conical section is placed on the end wall of the spray head, the top of which faces the base a truncated cone, a removable nozzle insert has a cylindrical body with an outlet in the center of the end wall, in which there is a stepped hollow cylinder and a chamber for twisting the fluid flow, and for supplying liquid under high pressure, it is placed inside the stepped cylinder and communicates with the central fluid supply chamber located in the fitting located in the cylindrical part of the housing, the diameter of the base of the stepped hollow cylinder corresponds to the diameter of the internal cavity of the nozzle insert body, the second part of the stepped cylinder is made with a smaller diameter , carries holes and two slots in communication with the end wall, for supplying fluid to the fluid flow swirl chamber, swirl chamber the fluid outflow of the nozzle insert is formed by the inner conical end wall of the nozzle insert body and the end wall of the stepped cylinder, the central fluid flow swirl chamber is formed by the inner end wall of the atomizer body and a cylindrical cavity made on the end wall of the nozzle, while the cavity walls are provided with grooves made with the same displacement relative to the center of the cylindrical cavity. 2. The spray head according to claim 1, characterized in that the central and lateral outlet openings are made with equal diameters from 0.8 to 1.5 mm. 3. The spray head according to claim 1, characterized in that the spray head has at least four removable conical inserts, which are made collapsible.

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