RU236755U1 - SPRINKLER NOZZLE - Google Patents

Abstract

The utility model relates to the field of devices for preventing fire or containing fire, in particular to a sprinkler spray for extinguishing fire. The technical result achieved by the utility model consists in improving the coating of the sprayer. The specified technical result is achieved due to the fact that a sprinkler spray has been developed, comprising a housing and a swirler with external channels, made with the possibility of ensuring the rotation of the liquid passing through the channels of the swirler, characterized in that the swirler additionally contains an axial channel with a conical expansion on both its sides, the housing contains an outlet with a conical expansion towards the swirler and a rounded expansion in the opposite direction.

Description

The field of technology to which the utility model relates

The utility model relates to the field of devices for preventing fire or containing fire, in particular to a sprinkler spray for extinguishing fire.

State of the art

A centrifugal deluge nozzle is known (RU 2775503, published 04.07.2022), which is made in the form of a hollow body, which has an inlet lower part with an external connecting thread, has an outlet part inside the body, made in the form of a diffuser, while inside the body the inlet lower part is made in the form of a confuser, in which a cast swirl generator with a cast insert placed in it is located concentrically relative to the axis of the body, a chamber is made above the swirl generator in the body, the outlet from the chamber is made through a neck, which is characterized by a ratio of the height of the neck to its diameter equal to 1:5, the neck is smoothly connected to the diffuser, the cast swirl generator is made in the form of a hollow cast sleeve, which has a left trapezoidal four-start thread on the outer lower cylindrical part, the lower cylindrical part of the cast swirl generator smoothly passes into the upper spherical part, which is mated with the upper cylindrical part, inside in the lower cylindrical part of the cast swirler there is a cylindrical cavity, which passes in the middle part of the cast swirler into a cavity made in the form of a truncated cone, the upper part of this conical cavity is communicated with the chamber by means of a diffuser, in the cylindrical cavity of the cast swirler there is a cast insert, made in the form of a central two-way for the flow of the fire extinguishing agent, a guide part with a right direction, wherein each stroke of the guide part is made in the form of a lower inclined plane, passing into a horizontal step, which passes into an upper inclined plane.

However, this solution uses a different design of sprayer, which does not provide uniform irrigation.

A solution selected as a prototype is known (RU 2501610, 20.12.2013), which discloses a sprinkler atomizer with a solid spray cone. The known device comprises a housing and a swirler, wherein the housing has an outlet chamber with an outlet opening and wherein the outlet chamber is located in the flow below the swirler, characterized in that on the outer surface of the swirler there is at least one swirler channel, wherein this channel in the turbulization section is made in the form of a spiral or passing at an angle to the central longitudinal axis of the swirler, and in the outlet section, located on the segment from the end of the turbulization section to the downstream end of the swirler channel, this channel is made passing in the axial direction so that at least a partial rotation of the liquid located in the swirler channel in the axial direction is ensured.

However, this solution uses a different design of the spray outlet, which does not allow for an increase in the irrigation area while maintaining uniformity of irrigation.

Disclosure of a utility model

In one aspect, a sprinkler sprayer is disclosed, comprising a housing and a swirler with external channels, designed with the possibility of providing a rotation of the liquid passing through the channels of the swirler, characterized in that the swirler additionally comprises an axial channel with a conical expansion on both its sides, the housing comprises an outlet opening with a conical expansion towards the swirler and a rounded expansion in the opposite direction.

In additional aspects, it is disclosed that the minimum total area of the holes in the sprayer corresponds to the minimum area of the sprayer outlet; the body contains support planes for installing the swirler at a given distance from the sprayer outlet; the body contains an annular groove around the sprayer outlet.

The main task solved by the declared solution is to improve the sprayer coverage: increase the coverage area while maintaining uniformity of the coating.

The essence of the claimed solution is that the sprinkler atomizer contains a swirler of a specific shape, the outlet opening of the atomizer contains a conical tapering inlet and a conical expanding outlet, the sprinkler contains an outlet opening with a conical tapering inlet and a rounded expanding outlet, which together ensures the achievement of the technical result.

The technical result achieved by the claimed solution consists in improving the coating of the sprayer.

Brief description of the drawings

Fig. 1 shows the atomizer.

Fig. 2 shows a section of the sprayer.

Implementation of a utility model

The proposed solution is a structurally and functionally unified device. All elements of the device are located in one housing and are connected to each other directly or indirectly by means of a functional connection. The only function of the declared device is to create a flow of liquid for extinguishing fire in a given area under the sprayer.

The functional connection of elements should be understood as a connection that ensures the correct interaction of these elements with each other and the implementation of one or another functionality of the elements. Particular examples of a functional connection may be a connection with the ability to transmit mechanical motion, a connection with the ability to transmit a fluid medium, electric current, mechanical vibrations, etc. The specific type of functional connection is determined by the nature of the interaction of the mentioned elements, and, unless otherwise specified, is ensured by widely known means, using widely known principles in technology.

Fig. 1 shows a three-dimensional image of a sprayer 100 with a swirler 101 101. The body of the sprayer 100 can be of any shape: cylindrical, of a composite shape (for example, a connected prism and cylinder), which is not related to the essence of the solution. The connection of the sprayer 100 to an external source of fire extinguishing agent (FE) is carried out by means of a threaded connection.

The swirler 101 has the form of a cylinder with side channels and an axial hole. This cylinder is made with the possibility of rotation when a stream of water or another fluid medium suitable for extinguishing a fire moves through it. The rotation is provided by channels in the form of spiral grooves or inclined grooves. Variants with two, three, four, five or six channels are possible, a smaller number does not provide sufficient uniformity of spraying, a larger number practically does not improve the characteristics of the sprayer 100.

Fig. 2 shows a section of the sprayer 100, in which:

201 - axial hole in swirler 101,

202 - side channel in swirler 101,

203 - nozzle outlet 100.

The special feature of the declared sprayer 100 is the combination of the shape of the swirl 101 with the shape of the outlet opening 203. This solution ensures uniform and dense filling of the entire irrigation area.

The swirler 101 comprises an axial inlet 201 having a conical inlet and a conical outlet, wherein the maximum area of the conical outlet is greater than the maximum area of the conical inlet. Such a solution ensures atomization of the liquid flow due to the difference in the areas of the inlet and outlet openings.

The flow of water and air after the swirler 101 enters the internal space of the atomizer 100 and moves to its outlet. The inlet of the atomizer 100 contains a conical expansion, and the outlet of the expander contains a rounded expansion, the maximum area of the outlet of the atomizer 100 is greater than the maximum area of the inlet of the atomizer 100. This solution allows for additional atomization of the flow of the fire extinguishing agent.

Experiments have shown that the proposed solution provides uniform and wide coverage of the protected area.

Description of the operation of the utility model

In case of fire in the area controlled by the sprinkler, the warm air flows rise upward, reach the thermal lock, which is triggered when the temperature reaches the set threshold value. The triggering of the thermal lock leads to the shut-off and starting device opening the fire extinguishing agent supply channel. The fire extinguishing agent passes through the sprayer 100 with the swirler 101 and evenly covers the protected area.

Option 1 of the implementation of the utility model

In general, a larger area of the holes in the swirler 101 compared to the area of the outlet opening 203 of the atomizer 100 leads to the formation of small droplets and a wider coverage of the surface of the fire extinguishing agent. A smaller area of the holes in the swirler 101 compared to the area of the outlet opening 203 of the atomizer 100 leads to the formation of larger droplets, a more jet-like nature of the outlet flow of the fire extinguishing agent. A specific ratio can be selected by a specialist in this field of technology depending on many factors: the number of sprinklers per unit area, the presence of external fire detection systems, the expected intensity of combustion, etc.

In one embodiment, the minimum total area of the openings in the atomizer 100 corresponds to the minimum area of the outlet opening 203 of the atomizer 100, which provides a compromise between coverage and the amount of fire extinguishing agent falling on the covered area.

Option 2 of the implementation of the utility model

In one embodiment, the housing comprises support planes for installing the swirler 101 at a given distance from the outlet 203 of the atomizer 100. Setting the distance between the outlet of the swirler 101 and the closest point of the outlet 203 of the atomizer 100 determines the size of the coverage area of the fire extinguishing agent and, accordingly, the amount of fire extinguishing agent falling into this area. The application does not consider the features of the relative location of the swirler 101 and the outlet 203; it can be selected experimentally depending on the conditions of use of the claimed device.

Option 3 of the implementation of the utility model

In one embodiment, the height of the swirler 101 is 9 mm, it contains three spiral channels and an axial opening 201, the angle of the inlet cone of the axial opening 201 is 90 degrees, the angle of the outlet cone of the axial opening 201 is 45 degrees, the ratio of the diameters of the bases of the said cones is 4. The area of the outlet openings of the spiral channels is 4 mm ² , the area of the axial opening 201 at its narrowest part is 4 mm ² .

The swirl 101 is located at a distance of 5 mm from the nearest edge of the outlet opening 203 of the sprayer 100, the height of the outlet opening 203 of the sprayer 100 is 15 mm, the diameter of the base of the inlet cone of the sprayer 100 is 12 mm, the diameter in the narrowest part of the outlet opening 203 is 8 mm, the diameter of the outlet opening 203 of the sprayer 100 at its outlet is 15 mm. The radius of rounding of the outlet opening 203 of the sprayer 100 is 10 mm.

Option 4 of the implementation of the utility model

In one embodiment, an annular groove is formed around the outlet 203 of the atomizer 100, which helps improve atomization due to the fact that the groove can capture and redirect air, creating a localized low pressure zone around the outlet 203 of the atomizer 100, which increases the difference in speeds between the liquid and the surrounding air, higher shear forces break the liquid into smaller droplets, improving atomization.

The embodiments are not limited to the embodiments described herein; other embodiments will become apparent to a person skilled in the art based on the information provided in the description and knowledge of the prior art, without departing from the spirit and scope of this solution.

Elements mentioned in the singular do not exclude a plurality of elements unless otherwise specifically stated.

The methods disclosed herein comprise one or more steps or actions to achieve the described method. The steps and/or actions of the method may replace each other without going beyond the scope of the utility model formula. In other words, if a specific order of steps or actions is not specified, the order and/or use of specific steps and/or actions may be changed without going beyond the scope of the utility model formula.

Although exemplary embodiments have been described in detail and shown in the accompanying drawings, it should be understood that such embodiments are illustrative only and are not intended to limit the broader utility model, and that the present solution should not be limited to the specific arrangements and structures shown and described, since various other modifications may be apparent to those skilled in the art.

The features mentioned in various dependent claims, as well as the implementations disclosed in various parts of the description, can be combined to achieve useful effects, even if the possibility of such a combination is not explicitly disclosed.

Claims (3)

1. A sprinkler atomizer comprising a housing and a swirler with external channels, designed with the possibility of ensuring the rotation of liquid passing through the channels of the swirler, characterized in that the swirler additionally comprises an axial channel with a conical expansion on both its sides, the housing comprises an outlet opening with a conical expansion towards the swirler and a rounded expansion in the opposite direction. 2. The atomizer according to claim 1, in which the body contains support planes for installing the swirler at a given distance from the outlet of the atomizer. 3. The sprayer according to claim 1, wherein the housing comprises an annular groove around the outlet of the sprayer.