RU2794047C1 - High pressure fire hose barrel - Google Patents

Abstract

FIELD: firefighting equipment.

SUBSTANCE: invention relates to devices designed to extinguish fires, namely, manual fire nozzles designed to form and direct a compact or spray jet, as well as to shut off the supply of fire extinguishing mixture. The hose barrel contains a body, inside which a channel for supplying fire extinguishing liquid is formed, a handle, a means for shutting off the flow of fire extinguishing liquid. The channel for supplying fire extinguishing liquid inside the housing is divided into two channels. A nozzle is installed at the outlet of each channel from said body. The means for shutting off the flow of fire extinguishing liquid is made in the form of a sealing installed in each channel. Said sealings are made with two through perpendicularly intersecting holes. The first mentioned opening of each sealing is made with the possibility of providing the passage of fire extinguishing liquid through the channel to the nozzle. The first rod is installed in the second mentioned hole of the mentioned first sealing. The second rod is installed in the second mentioned hole of the mentioned second sealing. Both mentioned rods are made with a through channel, the axis of which is perpendicular to the axis of the rod. Said first rod is installed in such a way that the axis of the hole made in the rod coincides with the axis of the first hole in the first sealing, and accordingly the said second rod is installed in such a way that the axis of the hole made in the second rod coincides with the axis of the first hole in the second sealing. The first and second rods are installed with the possibility of rotation around its axis and, accordingly, with the possibility of opening or closing the first opening of the sealing.

EFFECT: use of the claimed technical solution makes it possible to increase the efficiency of fire extinguishing, accelerate the switching of modes, while ensuring the compactness of the device.

6 cl, 6 dwg

Description

Technical field

The claimed technical solution generally relates to fire-fighting equipment, in particular to devices designed to extinguish fires, namely, manual fire nozzles designed to form and direct a compact or spray jet, as well as to shut off the supply of fire extinguishing mixture.

State of the art

A combined manual fire nozzle is known from the prior art (RU 181 3779, publ. 07/11/2018). The well-known shaft includes a main body, inside which a channel is formed, with a handle and a valve for shutting off the flow inside the channel, and there is a removable part, which is collapsibly connected to the main body and consists of a fixed body with a channel formed inside it, communicating with the channel formed inside the main body, the spray head and the casing, and the casing is connected to the spray head, as well as to the fixed body with the possibility of moving relative to it together with the spray head, an axial channel and spray channels are formed in the spray head, directed at an angle to it, and the entrance of which located up to the axial channel, and in the removable part, a spray mode switching unit is formed, which is located up to the axial channel of the spray head.

A fire nozzle is also known from the prior art (RU 162240, publ. 27.05.2016) substance, including mounted on an axis parallel to the body axis, a rotary element with a handle, characterized in that the rotary element of the mechanism for switching the modes of supply of fire extinguishing agent is made in the form of a washer with a set of interchangeable nozzles, the washer is mounted on the axis for movement in a plane perpendicular to the direction of movement of the fire extinguishing agent flow, one of the nozzles has a passage channel tapering in the direction of movement of the fire extinguishing agent flow, and the passage channel of the other nozzle is configured to form a fire extinguishing agent cone at the outlet, each of the nozzles is installed in the washer with the possibility of combining its passage channel with the outlet nozzle .

The disadvantages of these analogs are the design complexity, low reliability due to the presence of moving parts for switching spray modes, and the inability to create a combined jet mode (compact and sprayed).

The essence of the invention

The technical problem to be solved by the claimed technical solution is the creation of a fire barrel capable of operating in fire extinguishing systems with mist water with a pressure of up to 14 MPa, while providing several extinguishing modes, the switching of which is possible during the operating mode of the barrel.

The technical result of the claimed invention is to increase the efficiency of fire extinguishing, accelerate the switching of modes, while ensuring the compactness of the device.

The technical result of the claimed invention is achieved due to the fact that the fire barrel, containing the main body, inside which is formed a channel for supplying fire extinguishing fluid, a handle, a means for shutting off the flow of fire extinguishing fluid, and the channel for supplying fire extinguishing fluid inside the case is divided into two channels, while at the exit of each a nozzle is installed from said housing, and the means for shutting off the flow of fire extinguishing liquid is made in the form of a cuff installed in each channel, while said cuffs are made with two through perpendicularly intersecting holes, while the first mentioned hole of each cuff is made with the possibility of ensuring the passage of fire extinguishing liquid along channel to the nozzle, and the first rod is installed in the second mentioned hole of the mentioned first cuff, and the second rod is installed in the second mentioned hole of the mentioned second cuff, both of the said rods are made with a through channel, the axis of which is perpendicular to the axis of the rod, and the mentioned first rod is installed in such a way in such a way that the axis of the hole made in the stem coincides with the axis of the first hole in the first cuff, and accordingly the said second stem is installed in such a way that the axis of the hole made in the second stem coincides with the axis of the first hole in the second cuff, while the first and the second rod is installed with the possibility of rotation around its axis and, accordingly, with the possibility of opening or closing the first opening of the cuff.

In a particular case of implementation of the claimed technical solution, the nozzles are designed in such a way that one nozzle is configured to provide a continuous jet of fire extinguishing liquid, and the second nozzle is configured to provide a finely sprayed jet of fire extinguishing liquid.

In a particular case of the implementation of the claimed technical solution, sealing rings are additionally installed between the cuffs and nozzles.

In a particular case of implementation of the claimed technical solution, each said rod is connected to a control lever.

In a particular case of the implementation of the claimed technical solution, it is made with the possibility of independent switching of modes during the operating mode of the barrel, without turning off the supply of fire extinguishing liquid.

In a particular case of implementing the claimed technical solution, said first rod contains the first control lever, and said second rod contains the second control lever.

Brief description of the drawings

Details, features, and advantages of the present invention follow from the following description of the embodiments of the claimed technical solution using the drawings, which show:

In FIG. 1 is a sketch view of the design of the claimed device with spaced structural elements;

In FIG. 2 - general view;

In FIG. 3 - general view;

In FIG. 4 - nozzle of finely atomized fire extinguishing liquid (TRV);

In FIG. 5 - jet nozzle;

In FIG. 6 is a sketch view of the design of the claimed device with structural elements spaced apart.

The figures indicate the following structural elements:

1 - handle; 2 - body; 3 - back cover; 4 - stock; 5 - cuff; 6 - glass; 7 - atomized water nozzle (TRV); 8 - jet nozzle; 9 - control lever; 10 - pin; 11 - screw; 12 - nut; 13 - stem sealing ring; 14 - sealing ring for injectors; 15 - stem sealing ring; 16 - sealing ring of the rear cover; 17 - nut; 18 - clutch; 19 - fire hose with fitting; 20 - channel; 21 - channel of the nozzle TRV; 22 - nozzle channel; 23 - stock; 24 - control lever; 25 - glass; 26 - cuff; 27 - holes (nozzles) of the nozzle.

Disclosure of invention

The combined manual fire nozzle consists of a main body (2), inside which a channel (20) is formed for supplying a fire extinguishing agent.

The body (2) is made with a back cover (3). The back cover is made with a through hole, while the body (2) is connected through the back wall to a hollow handle, the cavity of which is a continuation of the channel (20). In this case, the handle is connected to a fire hose (19). The handle is connected to the fire hydrant by means of a fitting, which ensures the passage of fire extinguishing liquid from the fire hose (19) into the cavity of the handle (1) and, accordingly, into the channel (20).

An additional sealing ring (16) is installed between the body (2) and the rear cover (3).

In this case, the channel (20) inside the housing is divided into two channels - the channel (21) of the injector of the expansion valve and the channel (22) of the injector. In this case, a cuff (5) and (26) is installed in the channel (21) of the TEV nozzle and the channel (22) of the jet nozzle, respectively. At the same time, at the outlet of the channel (21) of the nozzle of the expansion valve and at the outlet of the channel (22), the nozzle (7) of the expansion valve and the jet nozzle (8) are respectively installed in the housing (2).

The nozzle (8) for forming a continuous jet is designed to form a compact laminar flow of fire extinguishing agent, which is achieved by the fact that the formation of a compact jet occurs from several parallel jets, which increases its range and extinguishing efficiency. The number of holes (27) is from seven to nine, while the diameter of the holes (27) is from 1.2 to 1.8 mm and is designed to provide water flow at a minimum operating pressure of 4 MPa 1.0 l/s and a jet length of 20 m.

The nozzle (7) for forming a finely atomized jet is designed to implement a fine mist-like cone flame of a fire extinguishing agent, which is achieved by the fact that the axes of the holes (nozzles) are inclined with respect to the cross section at an angle of 10-50 degrees. The number of holes (27) is from eleven to fifteen and the diameter of the holes (27) is from 0.8 to 1.0 mm, designed to ensure the flow of fire extinguishing liquid at a minimum operating pressure of 4 MPa 0.5-0.6 l/s and the length of the jet 6 m

Thanks to the use of these nozzles, the fire nozzle is low-consumption.

At the same time, sealing rings (14) are additionally installed between the cuffs and the nozzles.

Moreover, the design of one nozzle (8) provides a continuous jet of fire extinguishing liquid, and the design of the nozzle TRV (7) provides a finely sprayed jet of fire extinguishing liquid. This feature of the implementation of the claimed technical solution provides an increase in the efficiency of fire extinguishing.

Cuffs (5) and (26) are cylindrical in shape and contain two through perpendicularly intersecting longitudinal and transverse holes, while the longitudinal hole provides the passage of fire extinguishing liquid through the channel (21 and 22) to the nozzles (7) and (8), respectively. And a rod (4) and a rod (23) are installed in the transverse hole of each cuff. In this case, holes are made in the side walls of the housing (2), the axes of which are perpendicular to the channels (21) and (22), respectively. Rod (4) and rod (23) are installed in said holes with the possibility of rotation around their axis. Thus, the stem (4) and the stem (23) interact with the cuff installed in the channel (21) and in the channel (22), respectively.

In this case, the rod (4 and 23) is made with a through channel, the axis of which is perpendicular to the axis of the rod (4 and 23). When the rod (4 and 23) interacts with the cuffs installed in the channel (21) and in the channel (22), respectively, it is possible to open or close the longitudinal channel of the cuff, and, consequently, open and close the channel (21) and (22), respectively.

The possibility of opening and closing the mentioned longitudinal channels of the cuffs (5) is ensured by the fact that the axis of the channel made in each rod, in the open position, coincides with the axis of the longitudinal channel of the cuff, and accordingly, when the rod is rotated around its axis, either full or partial overlap of the channel is provided .

In this case, the rod (4 and 21) is installed by means of a cup (6) and a cup (25), respectively, fixed on the outer side of the housing (2) by means of a screw (11) connection.

Moreover, a sealing ring (15) is additionally installed between each mentioned cup (6 and 25) and the body (2).

Each said rod (4) and (23) is connected to the control lever (9) and (24). In this way, the possibility of a separate manual opening or closing of the mentioned channels is achieved, and thus it is possible to carry out different fire extinguishing modes.

In this case, the lever (9) and (24) is fixed respectively on the rod (4) and (23) by means of pins (10) and nuts (17 and 12).

Moreover, between each mentioned glass (6 and 25) and the lever (9) and (24), respectively, a sealing ring (13) is additionally installed.

Thus, the claimed design of the fire barrel provides several extinguishing modes, namely: continuous jet extinguishing, and fine spray extinguishing, and combined mode extinguishing, combining fine spray and solid jet extinguishing.

Moreover, the claimed design provides the ability to switch modes during the operating mode of the barrel, without turning off the supply of fire extinguishing fluid.

Another equally important feature is the size of the fireman's barrel, which allows you to combine a combined system of cranes in one building. This feature allows compact organization of the space inside the fire cabinet, and the compact size provides a more comfortable grip and intuitive further ergonomic use. The two cuffs used in the design make it possible to hydraulically make these cranes independent, despite the fact that they are located inside the same body. And thus, two independent modes are achieved, which can be turned on in turn and simultaneously to realize the combined mode of operation.

Claims (15)

1. Fire barrel, containing: the main body, inside which a channel for supplying fire extinguishing liquid is formed, handle, a means of shutting off the flow of fire extinguishing liquid, characterized in that the channel for supplying fire extinguishing liquid inside the housing is divided into two channels, at the same time, a nozzle is installed at the outlet of each channel from the said housing, and the means for shutting off the flow of fire extinguishing liquid is made in the form of a cuff installed in each channel, wherein said cuffs are made with two through perpendicularly intersecting holes, wherein the first mentioned hole of each cuff is configured to ensure the passage of fire extinguishing liquid through the channel to the nozzle, and the first rod is installed in the second mentioned hole of the first mentioned cuff, and the first rod is installed in the second mentioned hole of the mentioned second cuff installed second rod, at the same time, both said rods are made with a through channel, the axis of which is perpendicular to the axis of the rod, and the said first rod is installed in such a way that the axis of the hole made in the rod coincides with the axis of the first hole in the first cuff, and, accordingly, the said second rod is installed in such a way, that the axis of the hole made in the second rod coincides with the axis of the first hole in the second cuff, wherein the first and second rods are installed with the possibility of rotation around its axis and, accordingly, with the possibility of opening or closing the first opening of the cuff. 2. The barrel according to claim 1, characterized in that the nozzles are made in such a way that one nozzle is configured to provide a continuous jet of fire extinguishing liquid, and the second nozzle is configured to provide a finely sprayed jet of fire extinguishing liquid. 3. The barrel according to claim 1, characterized in that sealing rings are additionally installed between the cuffs and nozzles. 4. Barrel according to claim 1, characterized in that each said rod is connected to a control lever. 5. The barrel according to claim. 1, characterized in that it is made with the possibility of independent switching modes during the operating mode of the barrel, without turning off the supply of fire extinguishing fluid. 6. Barrel according to claim 1, characterized in that said first rod contains a first control lever, and said second rod contains a second control lever.

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