RU163355U1 - FIRE VENT - Google Patents

Abstract

1. A fire valve comprising a housing with inlet and outlet fittings communicating with each other through the bypass hole of the seat and a locking mechanism located in the housing in the form of a screw spindle, a flywheel installed on one end and a spool mounted on the other end to close the bypass hole, cover made in the form of a flange with a protrusion located in its upper part, characterized in that the outlet fitting in it is made with an end flange and with gripping elements in the form of tidal diametrically arranged around the circumference a ring with a L-shaped cross-section, with an annular groove made on the inner surface of the outlet fitting, inside of which there is an annular sealing element made of an elastic material, with bayonet connection with an element of the water supply line, wherein said end flange is made with step limiters providing fixation of the position of the connected element of the water supply line during its rotation. 2. The fire valve according to claim 1, characterized in that it comprises a valve for detecting the state of the valve with a micro switch and a push sleeve connected to a screw spindle with the possibility of mechanical action on the elastic contact of the micro switch.

Description

The utility model relates to the field of mechanical engineering and can be used to connect a water supply line to fire extinguishing objects.

A known valve (RF patent No. 855597, IPC F16K 1/02 of 02/09/2009), comprising a housing with input and output channels communicating with each other by a spherical-shaped camera with through holes, and a locking mechanism located in the housing in the form of a screw spindle, on one the end of which is equipped with a flywheel, and on the other there is a disk spool in contact with the seat and blocking the bypass hole in the closed position of the valve, while the screw spindle is screwed into the cover, tightly wrapped in the housing, between the inner surface to yshki gland and the spindle is mounted, clamping threaded member on a threaded shank fixed spool sealing washer, disc valve is mounted on the lower end of the spindle so that it has freedom of movement in the vertical and horizontal planes and free rotation of the spindle.

The closest technical solution to the proposed utility model is a known valve (RF patent No. 91123, IPC F16K 1/02 dated 10.26.2009) containing a housing with inlet and outlet fittings communicating with each other through the bypass hole of the seat and a locking mechanism located in the housing in the form of a screw spindle, on one end of which a flywheel is mounted, and on the other a spool is fixed, consisting of a disk metal element and an elastic sealing element that overlaps the bypass hole in the closed position of the valve, a cover made in the form of a flange with a through central hole, a sleeve with another sealing element located in the upper part of the cover with a protrusion.

In the known technical solutions, a significant drawback is the presence of a threaded connection between the outlet fitting of the valve and the water supply line to the fire extinguishing object, which affects the responsiveness of the fire brigade, since considerable time is spent on screwing the connection element onto the outlet fitting, and therefore complicates operating conditions.

In addition, in known fire valves there is no possibility of monitoring the state of the valve "open-closed", which does not automatically connect an external discharge pump for supplying water to the fire hoses.

The technical result, which consists in eliminating the noted drawback, namely, in simplifying operating conditions and reducing the time taken to connect the fire valve to the water supply line, is achieved in a fire valve containing a housing with inlet and outlet fittings communicating with each other through the saddle bypass hole , and a locking mechanism located in the housing in the form of a screw spindle, on one end of which a flywheel is installed, and a spool is fixed on the other to close the bypass hole, cr an arm made in the form of a flange with a protrusion located in its upper part, in that the outlet fitting is made with an end flange and with gripping elements in the form of tides diametrically spaced around the circumference with a L-shaped cross section, while on the inner surface of the outlet an annular groove is made in the fitting, inside of which there is an annular sealing element made of elastic material, with a bayonet connection to the element of the water supply line, the said end flange being flax with step limiters,

providing fixation of the position of the connected element of the water supply line when it is rotated.

The technical result, which consists in simplifying operating conditions by providing control of the valve state, is achieved by the fact that it contains a valve for detecting the state of the valve with a micro switch and a push sleeve connected to the screw spindle 6 with the possibility of mechanical action on the elastic contact of the micro switch ..

The essence of the utility model is illustrated by drawings, where:

in FIG. 1 shows a valve in section;

in FIG. 2 shows a view of the valve from the side of the outlet fitting;

in FIG. 3 shows a three-dimensional image of a fragment of the design of the fire valve - outlet fitting;

in FIG. 4 shows a valve with an attached element of a water supply line.

The fire damper (Fig. 1, 2) contains a housing 1 with input 2 and output 3 fittings communicating with each other through the bypass hole 4 of the seat 5, and a locking mechanism located in the housing in the form of a screw spindle 6, on one end of which a flywheel 7 is installed and the spool 8 is fixed on the other to block the bypass hole 4, the cover 9, made in the form of a flange with a protrusion 10 located in its upper part.

The inlet fitting 2 is made with an internal thread for connecting the valve to the water supply (not shown in the drawing).

The outlet fitting 3 is made with an end flange 11 (Fig. 2) and with gripping elements 12 in the form of tides diametrically spaced around the circumference with a L-shaped cross-section, with an annular groove 13 on the inner surface of the outlet fitting, inside of which an annular sealing an element 14 made of an elastic material, for example, rubber, with a bayonet connection with the element 15 of the water supply line 16 (hose), and the said end flange 11 is made with step stops 17 sintering fixation of the position of the attached element 15 of the line 16 water supply when the rotation of the element 15.

In addition, the fire valve contains an open-closed valve state sensor 18 with a micro switch 19 and a push sleeve 20 connected to a screw spindle 6 with the possibility of mechanical action on the elastic contact of the micro switch 19.

The drawing (Fig. 1) also shows the connecting electrical cable 21 connected to an external control unit (not shown).

In this case, the sensor 18 is mounted under the flywheel 7 on the protrusion of the cover 9 by means of a fixing screw 22, and the movable push sleeve 20 is connected to the screw spindle 6 with the possibility of mechanical impact on the elastic contact of the microswitch 18 connected to the connecting cable 21. The sleeve is located in the protrusion 10 of the cover 9 in which the internal thread for the screw spindle 6 is made.

The proposed valve operates as follows.

The inlet fitting 2 is connected to the water supply (not shown in the drawings).

The element 15 of the water supply line 16 (hose) is connected to the outlet fitting 3 without thread by means of a bayonet connection.

The bayonet connection is provided by the design of the outlet fitting 3 and the design of the connecting element 12 located on the hose 16.

Due to the fact that the outlet fitting 3 is made with an end flange 11 and with gripping elements 12 in the form of tides diametrically spaced around the circumference with a L-shaped cross section, a quick and reliable connection with the connecting element 12 of the hose 16 is achieved by one incomplete rotation of the element 12 to its stop in step stops 17 of the flange 11.

This ensures sealing of the connection due to the annular sealing element 14, which acts with compressive force of the inner annular protrusion (not shown) made in the aforementioned attached element 12.

In the initial (closed) state, the locking mechanism, consisting of a screw spindle 6 and a spool 8, overlaps the bypass hole 4 in the seat 5. In this case, the screw spindle 6 and the associated movable push sleeve 20 are in the lowest position. There is no signal from microswitch 19.

When the valve is opened, the locking mechanism is manually rotated by means of the handwheel 7. The screw spindle 6 moves upward along with the spool 8. In this case, the bypass hole 4 is opened and water from the water supply enters the valve’s internal cavity and then through the outlet nipple 3 into the fire hose 16. In this case, the sleeve 20 also moves up and acts on the microswitch 19, which is triggered and the signal from the microswitch 10 through the connecting cable 21 enters an external control unit that turns on the pump (on not shown) to ensure the necessary water pressure in the fire hose 16.

Thus, the proposed utility model provides a quick and reliable connection of the fire valve with the water supply line to the fire extinguishing object, as well as monitoring the valve condition, which improves operating conditions.

The proposed valve is manufactured at a machine-building enterprise.

For the manufacture of the housing 1 and the cover 9 are used cast iron or brass or brass with a nickel coating. For spindle 6, brass is used. For the manufacture of flywheel 7, structural steel may be used.

Wear-resistant rubber is used for sealing elements. Microswitch 20 and cable 21 are standard.

Claims (2)

1. A fire valve comprising a housing with inlet and outlet fittings communicating with each other through the bypass hole of the seat and a locking mechanism located in the housing in the form of a screw spindle, a flywheel installed on one end and a spool mounted on the other end to close the bypass hole, cover made in the form of a flange with a protrusion located in its upper part, characterized in that the outlet fitting in it is made with an end flange and with gripping elements in the form of tidal diametrically arranged around the circumference a ring with a L-shaped cross-section, with an annular groove made on the inner surface of the outlet fitting, inside of which there is an annular sealing element made of an elastic material, with bayonet connection with an element of the water supply line, wherein said end flange is made with step limiters providing fixation of the position of the connected element of the water supply line during its rotation. 2. Fire valve according to claim 1, characterized in that it comprises a valve for detecting the state of the valve with a micro switch and a push sleeve connected to a screw spindle with the possibility of mechanical action on the elastic contact of the micro switch.

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