RU195409U1 - HYDRANT FIRE LAND - Google Patents

Abstract

The utility model relates to water intake devices, namely, hydrants installed on an external water supply network, and can be used in a wide range of ambient temperatures to select water for various purposes, mainly for fire fighting. Using the proposed ground fire hydrant provides increased hydrant efficiency due to the greater volume of water withdrawal from the supply pipe with the supply of water to the fire equipment in comparison with the prototype, where the hydrant is equipped with The achievement of the specified technical result is ensured by the fact that the hydrant is a ground fire hydrant, comprising a housing with a nozzle for connecting fire equipment, a shut-off valve mounted along the axis of the housing and consisting of a spindle, seat and shutter, and the housing is made with the possibility of communication with main pipeline, characterized in that the shut-off valve is equipped with a special key mounted above the valve cover and connected with the valve spindle, the body is made detachable from two parts through openings additionally made in the upper part of the housing, perpendicular to its axis, symmetrically on both sides, the distribution manifold is hermetically installed in the form of two plugged pipes placed at the level of the shut-off valve seat, while the nozzles are made directly on each distribution manifold pipe with a total from 2 to 4, the lower part of the cylindrical housing for communication with the main pipeline is supplemented by a communicating cylindrical rigidly connected horizontally m tube segment, in the lower part of which is mounted a drain cock. 4 s.p. f-ly, 1 ill.

Description

The utility model relates to water intake devices, namely, hydrants installed on an external water supply network, and can be used in a wide range of ambient temperatures to select water for various purposes, mainly for fire fighting.

Known invention (RF patent No. 691137, IPC A62C 35/20, publ. 15.10.79) "Fire hydrant." The present invention comprises a housing with a connecting pipe, a flange, a cover, a seat and a shutoff valve, which is mounted on a spindle. The spindle is fixedly mounted in the threaded socket relative to the rack body and passes through the cover. Completed grooves and cuts should ensure the reliability of the device at low temperatures.

The disadvantages that impede the use of the known design include the need to place the device only at the bottom point of the conduit. Otherwise, freezing and denial of work occurs. In this case, the selection of water and its supply to the fire fighting equipment is carried out by means of only one nozzle.

A utility model is also known (RF patent No. 55606. IPC А62С 35/20. ЕОВВ 9/20, published on 08.27.2006), which is designed for low temperature conditions. "Hydrant" is made with the possibility of connecting to a water conduit and comprises a housing with a cover, a locking device and a partition placed in the housing. The partition is installed along the axis of the housing, under the locking device in its closed position with a gap. According to the authors, this ensures the formation of a channel for the flow of water from the conduit. Moreover, the cross-sectional area of the channel has a certain size.

The disadvantages that impede the use of the known design are the possibility of draining the device only in its upper part (above the valve), which only partially solves the task: "reliability of the hydrant." At the same time, it is possible to install the hydrant only on the water conduit, but it is not possible to install it on a dry pipe, which could completely solve the problem posed by the authors. In this case, the selection of water and its supply to the fire-fighting equipment is also carried out only through one pipe of one hydrant.

According to the general essential features and the technical result achieved, the closest technical solution to the proposed device is the hydrant according to patent No. 55606, which is selected as a prototype.

The problem solved by this utility model is to provide increased hydrant efficiency regardless of the ambient temperature.

The use of the proposed fire hydrant above-ground provides increased efficiency of the hydrant due to the greater volume of water withdrawal from the supply pipe with the supply of water to the fire equipment in comparison with the prototype, where the hydrant is equipped with only one pipe.

The achievement of the specified technical result is ensured by the fact that the hydrant is a ground fire hydrant, comprising a housing with a pipe for connecting fire equipment, a shut-off valve installed along the axis of the housing and consisting of a spindle, seat and shutter, and the housing is configured to communicate with the main pipeline, characterized in that the shut-off valve is equipped with a special key mounted above the valve cover and connected with the valve spindle, the body is made detachable in two parts, through holes, additional Completely made in the upper part of the casing, perpendicular to its axis, symmetrically on both sides, the distribution manifold is hermetically installed in the form of two plugged pipes placed at the level of the shut-off valve seat, while the nozzles are made directly on each distribution manifold pipe with a total number of 2 to 4, the lower part of the cylindrical body for communication with the main pipeline is supplemented by a rigidly connected horizontally connected cylindrical pipe segment, in the lower portion of which is mounted a drain cock.

For efficient operation at low temperatures, it is preferable to install a hydrant in a shelter cabinet with supports located directly under the hydrant body, and for heating and hydrant heating use a heating cable and a thermal case with the ability to control them from the shelter cabinet.

At the same time, fire equipment connected to the pipes can be placed in specially designated cells inside the shelter cabinet.

In conditions of negative temperatures, the pipes for connecting fire equipment can be located at an angle of 20 to 50 degrees to the horizontal. Since at low temperatures the necessary angle of inclination contributes to more efficient operation during hydrant operation.

The proposed device is illustrated in the drawing. In FIG. 1 shows a ground fire hydrant (general view), where 1 is a hydrant body, 2 are nozzles for connecting fire equipment, can be made in an amount of 2 to 4, which determines the efficiency due to more complete selection from the pipeline with water supply to the fire equipment , 3 - a shut-off valve, which includes 4 - a spindle, 5 - a saddle, 6 - a lock, 7 - a special key (for example, in the form of a flywheel), which is installed above 8 - the valve cover (3) and connected to the spindle (4), case (1) is made detachable and consisting of 2 parts - 9 - upper part 10 - the bottom. Two holes (11) are made in the upper part (9) of the housing, into which pipes are sealed at the free ends, which are a distribution manifold (12) equipped with nozzles (2). The collector is located at the level of the seat (5) of the shut-off valve (3), and the nozzles (2) are made directly on the manifold (12). The volume of the lower part of the casing (10) is supplemented by a horizontally located and rigidly connected communicating pipe segment (13), with the formation of the lower part of the casing (10) in the form of an inverted T-shaped connection from two cylinders. In the lower part of the pipe (13) an additional drain valve is installed - 14.

The device operates as follows.

When rotating a special key (flywheel 7) located above the cover (8), the shutoff valve (3) opens, the spindle (4) connected to the seat (5) and the shutter (6) rise up. At the same time, the flow of water coming from the lower part (10) of the housing (1) to the upper part (9), to each collector pipe (12) and then through the pipes (2) to the corresponding fire fighting equipment is regulated. Each nozzle is equipped with cranes, and fire equipment is installed using connecting heads (not shown in the drawing).

When the flywheel (7) rotates in the opposite direction, the reverse actions are performed: the shut-off valve (3) closes, the spindle (4) connected to the seat (5) and the shutter (6) are lowered. The possibility of water entering the upper part (9) of the housing (1) is blocked, which can be emptied through a collector (12) with nozzles (2). The lower part (10) of the housing (1), the volume of which is increased by the welded pipe (13), is emptied using a drain valve (14).

When connected to the line, work options are possible: the hydrant is installed on the dry pipe line, in this case, water is drained, including through the drain valve (14) of the hydrant.

When repairing a water-filled line to shut off a section of a line through a drain valve, you can also empty this section.

Tests of the proposed hydrant was carried out during operation of the device at low temperatures. The test results confirmed the effectiveness of the hydrant by increasing the selection and supply of water from the highway to the distribution manifold and the corresponding pipes. The minimum number of nozzles during the experiment is 2 pieces, 4 nozzles are recognized as the optimal number. An increase in the number of nozzles of more than 4 is possible, but a change in the standard sizes of the used component parts and components will be required. In case of bad weather it is recommended to install a hydrant in a shelving cabinet to improve work efficiency, the supports of which should be installed directly under the hydrant body. During the test period at low ambient temperatures, a heating cable and a thermal case on the hydrant body were used. Preferably, it was possible to control them from the shelter cabinet. Convenience and efficiency of the hydrant will be higher if fire equipment (hoses, barrels, branching three-way hoses) connected to the nozzles can be placed in specially designated cells inside the shelter cabinet.

In conditions of negative temperatures, the pipes for connecting fire equipment can be located at an angle of 20 to 50 degrees to the horizontal.

Since at low temperatures, the angle of inclination in the specified range contributes to more efficient operation during operation of the hydrant.

The tests were carried out at ambient temperature (in degrees): -60ºС, -20ºС, 0ºС and + 25ºС.

This provided:

- working pressure at the inlet to the hydrant, MPa (kgf × m ² ) - 0.8-1.0;

- working pressure at the outlet of the nozzles, MPa (kgf / cm ² ) not less than 0.358 kgf / cm ² ;

- the volumetric flow rate of each pipe when taking water from 4 pipes simultaneously (m ³ / h) - at least -26;

- Conditional pass of the connected pipeline Du-150 mm;

- the number of outlet pipes 2 or 4;

- temperature of the working medium (supplied water) - from +3 to + 30ºС.

The hydrant design during testing provided strength at a hydraulic pressure exceeding 2 times the working pressure.

The tests carried out confirm the achievement of the technical result, that is, the increased hydrant efficiency due to the greater volume of water withdrawal from the inlet pipe with water supply to the fire equipment in comparison with the prototype (where the hydrant is equipped with only one pipe, and, therefore, the selection with a water supply of 2 -4 times less).

Claims (5)

1. Ground fire hydrant, comprising a body with a pipe for connecting fire equipment, a shut-off valve mounted on the axis of the body and consisting of a spindle, seat and shutter, and the body is made to provide communication with the main pipeline, characterized in that the shut-off valve is equipped with a special a key mounted above the valve cover and connected to the valve spindle, the body is made detachable in two parts, through holes additionally made in the upper part of the body, perpendicular to it si, symmetrically on both sides, the distribution manifold is hermetically installed in the form of two plugged pipes placed at the level of the shut-off valve seat, while the nozzles are made directly on each distribution manifold pipe with a total quantity of 2 to 4, the lower part of the cylindrical body for communication with the main pipeline supplemented by a rigidly connected horizontally connected cylindrical pipe segment, in the lower part of which a drain valve is installed. 2. Hydrant under item 1, characterized in that the pipes for connecting fire equipment are located at an angle of 20 to 50 degrees to the horizon. 3. The hydrant according to claim 1, characterized in that it is made with the possibility of its installation in a closet-shelter with supports located directly under the hydrant body. 4. Hydrant according to paragraphs. 1 and 3, characterized in that for the insulation and heating of the device using a heating cable and a thermal case with the possibility of their control from the shelter. 5. Hydrant according to paragraphs. 1 and 3, characterized in that the fire equipment connected to the nozzles is placed in specially designated cells inside the shelter cabinet.

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