RU2647027C1 - Sprinkler - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to firefighting equipment. Sprinkler contains a body in the form of a central bushing with an external hexagonal and an internal cylindrical surfaces. Internal thread is made on the two end faces of the central bushing. One of the end faces is axially symmetrically fastened to the inlet branch pipe by means of a lock nut, and to the other - a spraying element made in the form of a sleeve which inner diameter is equal to the inside diameter of the supply pipe. Socket, which is part of a spherical surface bounded by the inner and outer hemispheres, and having a thickness "s", is fixed to the sleeve by means of arcs arranged along a conical surface. Cross section of the arcs located along the conical surface and connecting the sleeve to the socket is made by profile, screw, to increase the effect of finely dispersed spraying of the foamer solution. Centre of hemisphere lies on line connecting axis of central sleeve and axis of feed pipe. On the spherical surface, from the outside, at least three radial grooves are made, which axes are located on radial lines with respect to the hemisphere, and in the peripheral part of the hemisphere, at least three chokes are formed, the centers of which lie in a plane parallel to the diametral plane of the hemisphere, which is perpendicular to the axis of the inlet nozzle, axisymmetrically to the spraying element. In the cavity of the central bushing there is a glass bulb. Flask is fixed between two poppet valves. In the upper part, it rests against the poppet valve with three spherical arcs, overlapping the cross-section of the inlet branch pipe, and in the lower part it rests against the poppet valve that covers the cross section of the bushing. Poppet valves are made with a high perforation ratio. In the side surface of the central sleeve with the outer hexagonal and internal cylindrical surfaces, made at least, towards the outlet, three inclined throttling holes, whose axes intersect at a point lying on the axis of the central hub, and constitute an acute angle with this axis in the plane of the drawing.

EFFECT: invention makes it possible to increase the efficiency of fire extinguishing.

1 cl, 1 dwg

Description

The invention relates to fire fighting equipment.

The closest object to the declared technical essence is the sprinkler containing the housing and the spray device, the housing is made in the form of a threaded fitting with a through conical hole and an end part, in which two cylindrical holes coaxial with the conical hole are made, while the end part of the threaded fitting is axisymmetric an arm consisting of two vertical volumetric stiffeners and two inclined prismatic ribs rigidly connected to them, is rigidly connected to the hollow a cylindrical sleeve to which, perpendicular to its axis, a spray device is attached in the form of a socket with petals located relative to each other with a gap (RF patent No. 2408436, B05B 1/04, A62C 31/02 - prototype).

The disadvantage of the prototype is the inability to create the optimal flow structure during the formation of film curtains of great length.

The technical result is an increase in the efficiency of fire fighting.

This is achieved by the fact that in a sprinkler containing a housing in the form of a central sleeve with an external hexagonal and inner cylindrical surfaces, an internal thread is made on the two end sides of the central sleeve, and the inlet pipe is axially symmetrically attached to one of the end sides by means of a lock nut, and to the other, a spray element made in the form of a sleeve, the inner diameter of which is equal to the internal diameter of the inlet pipe, fastens to the sleeve by means of arcs located on a conical surface a socket, which is a part of a spherical surface bounded by internal and external hemispheres, and having a thickness of "s", while the cross section of arcs located on a conical surface and connecting the sleeve to the socket is made of a profile, screw, to increase the effect of fine spraying of the foaming solution , and the center of the hemisphere lies on the line connecting the axis of the central sleeve and the axis of the inlet pipe, while at least three rails are made on the spherical surface from its outer side dial grooves, the axes of which are located on lines radial with respect to the hemisphere, and in the peripheral part of the hemisphere, at least three throttle openings are made, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the inlet pipe, axisymmetrically to the spraying element, in the cavity of the central sleeve, a glass bulb is located, which is an element of automatic operation to exceed a predetermined temperature in the room, the glass bulb is fixed between two poppet valves: in the upper part it abuts against a poppet valve with three spherical arcs, overlapping the inlet pipe section, and in the bottom, it rests in a poppet valve overlapping the sleeve section, with poppet valves with a high perforation coefficient, and in the side surface at least three inclined throttle openings, the axes of which intersect at a point, are made of the central sleeve with the external hexagonal and internal cylindrical surfaces on the axis of the central sleeve, and make an acute angle with this axis in the plane of the drawing, while inclined toward the outlet, throttling holes made in the side surface of the central sleeve with an external hexagonal and internal cylindrical surfaces are made with a screw thread, and the direction of the screw thread in throttling holes is made with alternating left and right directions.

The drawing shows a sprinkler diagram.

The sprinkler comprises a housing made in the form of a central sleeve 2 with an external hexagonal and internal cylindrical surfaces, while an internal thread is made on the two end faces of the central sleeve 2, and the inlet pipe 6 is axially symmetrically attached to one of the end sides by a lock nut 5, and the other is a spray element made in the form of a sleeve 1, the inner diameter of which is equal to the internal diameter of the inlet pipe 6. Attached to the sleeve 1 by means of arcs 7 located on a conical surface ozetka 8, which is a part of a spherical surface 11 bounded by the inner and outer hemispheres having a thickness «s». The cross section of arcs 7 located on a conical surface and connecting the sleeve 1 to the socket 8 is made profile, for example screw, to increase the effect of fine spraying of the foaming agent solution.

The center of the hemisphere lies on the line connecting the axis of the central sleeve 1 and the axis of the supply pipe 6. On the spherical surface 11, from its outer side, at least three radial grooves 9 are made, the axes of which are located on the lines radial with respect to the hemisphere and in the peripheral part of the hemisphere there are made at least three throttle holes 10, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the inlet pipe 6.

Axially symmetrically to the spraying element, in the cavity 3 of the central sleeve 2, there is a glass bulb 15 with a diameter of 5 mm, which is an element of automatic response to exceeding the set temperature in the room, i.e. thermal lock. The glass bulb 15 is fixed between two poppet valves: in the upper part it abuts the poppet valve 4 with three spherical arcs 12, overlapping the section of the inlet pipe 6, and in the bottom, it rests in the poppet valve 16, overlapping the section of the sleeve 1, while the poppet valves 4 and 16 are made with a high perforation coefficient. At least three inclined throttle holes 14, the axes of which intersect at a point lying on the axis of the central sleeve 2, are made in the lateral surface 13 of the central sleeve 2 with the external hexagonal and internal cylindrical surfaces, and make an acute angle with this axis in the plane of the drawing.

The sprinkler works as follows.

A glass bulb 15, with a diameter of 5 mm, is an element of automatic response to exceeding a predetermined room temperature, i.e. thermal lock. Depending on the operating temperature, the liquid in the flask has a certain color: 68 ° C - red, 57 ° C - orange. The response temperature is selected depending on the category of protected premises.

When the sprinkler fires, the glass bulb 15 explodes, freeing the supply of the extinguishing agent through the nozzle 6, then the flow of the extinguishing agent moves in two directions: the first through the throttle holes 14, and the second through the outlet in the sleeve 1 to the socket 8. The formation of a fine stream of extinguishing agent occurs on the socket 8 with throttle holes 10, in the radial grooves 9, and in the throttle holes 14 of the side surface 13 of the Central sleeve 2.

The sprinkler provides increased speed and reliability of fire protection systems, improved manufacturability and settings, tightness in the working position and allows you to irrigate, depending on the design and diameter of the through hole, 6-36 m ² the floor area of the room. Instead of water, a foaming agent solution may be used as a fire extinguishing agent. It is possible to use with the following types of extinguishing agent: water, aqueous solutions, foam. The multiplicity of the foam is 13.2%, the concentration is 3%. As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the "Multipena" type is used. It also works on a 6% aqueous solution of fluorinated foaming agent "Sublayer" in the conditions of smoke in the room.

It is possible that at least three throttling openings 14 inclined toward the outlet 8, made in the side surface 13 of the central sleeve 2 with external hexagonal and inner cylindrical surfaces, are made with a screw thread, and the direction of the screw thread in the throttling holes 14 is alternated with the left and right directions.

Claims (2)

1. A sprinkler containing a housing in the form of a central sleeve with an external hexagonal and internal cylindrical surfaces, with internal threads being made on two end sides of the central sleeve, and an inlet pipe connected to one of the end sides with an lock nut and a spray nozzle to the other side an element made in the form of a sleeve, the inner diameter of which is equal to the internal diameter of the inlet pipe, to the sleeve, by means of arcs located on a conical surface, a socket is attached, representing I am a part of a spherical surface bounded by internal and external hemispheres and having a thickness of "s", while the cross-section of arcs located on a conical surface and connecting the sleeve with a socket is made profile, screw, to increase the effect of fine dispersion of the foaming solution, and the center of the hemisphere lies on the line connecting the axis of the central sleeve and the axis of the inlet pipe, while at least three radial grooves are made on the spherical surface from its outer side, the axes of which located on radial lines with respect to the hemisphere, and in the peripheral part of the hemisphere, at least three throttle openings are made, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the inlet pipe, axisymmetrically to the spraying element, located in the cavity of the Central sleeve glass bulb, which is an element of automatic operation when the set temperature in the room is exceeded, characterized in that the glass bulb is fixed between with two poppet valves: in the upper part it abuts against a poppet valve with three spherical arcs, overlapping the inlet pipe section, and in the bottom, it rests in a poppet valve overlapping the sleeve section, with poppet valves with a high perforation coefficient, and in the side surface at least three inclined throttle openings, the axes of which intersect at a point lying on the axis of the Central sleeve, and make an acute angle with this axis in the plane of the drawing. 2. The sprinkler according to claim 1, characterized in that the inclined toward the outlet, throttling holes made in the side surface of the central sleeve with an external hexagonal and inner cylindrical surfaces are made with a screw thread, and the direction of the screw thread in the throttling holes is made with alternating left and right directions.

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