RU73609U1 - SPRAYER - Google Patents

Abstract

The utility model relates to fire extinguishing devices. The purpose of the proposed utility model is uniform irrigation of the surface and uniformity of droplet spray, which are achieved due to the predominance of small droplets in the total mass, the absence of moving parts in the device, the filtration of incoming water, the operation of the device in any case, regardless of the movement of heat flows. The utility model is implemented as follows: when a fire occurs, an electric impulse is supplied to the destructive element through the wires, under the influence of which an explosive is released. The release of explosive leads to the destruction of the destructible element. After that, the water pushes the cork with its pressure. Then begins the outflow of water. Passing the filter, the water through the channel reaches the divider, providing spraying flow.

Description

Technical field

The utility model relates to fire extinguishing devices.

State of the art

The invention is known "Sprinkler for stationary fire extinguishing systems" (USSR copyright certificate No. 550160).

The structure of the device includes: a body with an arc, a nozzle, a spray. The device provides fine dispersion of a liquid fire extinguishing agent, mainly water, in stationary fire extinguishing installations. A feature of this device is the fact that when the heat flux deviates from the source of ignition, the device does not operate.

The disadvantage of the device are: irregularity of irrigation, heterogeneity of the droplet spray over the diameter of the droplets and the predominance of large droplets in the total mass, the presence of moving parts in the device, which can lead to breakage, the absence of a water filter, the device not working when the heat flux is displaced (not falling onto the device) from the source fires.

The purpose of the proposed utility model is uniform irrigation of the surface and uniformity of droplet spray, which are achieved due to the predominance of small droplets in the total mass, the absence of moving parts in the device, the filtration of incoming water, the operation of the device in any case, regardless of the movement of heat flows.

This goal is achieved due to the fact that in the sprinkler containing the base with a channel made in it, a holder, an emphasis with a divider attached to it, a destructible element and a cork, the holder being fixed to

the base and holds the divider opposite the channel coaxially to it, while the plug is installed to ensure that the channel overlaps inoperative, the destructible element is installed between the plug and the divider with the possibility of the plug moving to the position in which the channel is opened when the destructible element is destroyed, and the diameter of the divider with the sides of the channel are smaller than the diameter of the channel, a destructive element, wires and a fastener are inserted into it, and the mount is installed on the base from the side of the holder, the destructive element t is mounted on the mount from the side of the destructible element, wires are attached to the destructible element.

Brief Description of the Drawings

The utility model is illustrated by drawings (figure 1, 2), which shows the sprinkler, its fragments and an example of its use. Figure 1 shows a fragment of a General view of the sprinkler, figure 2 shows an example of the operation of the sprinkler.

Utility Model Disclosure

In Fig. 1, in a clockwise order of increasing numbers: holes 1, filter 2, channel 3, sleeve 4, base 5, destructible element 6, holder 7, divider 8, stop 9, washer with hole 10, plug 11, through hole 12.

In figure 2 in ascending order of numbers clockwise indicated: ceiling 13, sprinkler 14, water 15, pipe 16, pump 17, fire 18, floor 19.

Also indicated in FIG. 1: destructive element 20, wires 21, fastening 22.

The main element of the sprinkler 14 (figure 1) is the base 5, made in the form of a cylindrical element tapering on one side, provided

through hole 12 and, on the narrow side, threaded. A filter 2 and a sleeve 4 with a channel 3 are installed in the through hole 12 on the narrower side of the base 5. The sleeve 4 is located inside the filter 2. The axis of the channel 3 in the sleeve 4 coincides with the axis of the through hole 12. On the other side from the filter 2 to the base 5 is attached holder 7. The holder 7 can be made in the form of an arc, and the base of the arc is attached to the base 5, and its upper part is opposite the through hole 12. On the upper part of the holder 7 opposite the through hole 12 is fixed stop 9. On the stop 9 from the side of the base 5 fixed rasekat spruce 8, part of which is a straight cylinder with a diameter smaller than the diameter of channel 3, and the axis of the cylinder coincides with the axis of the through hole 12. The washer with the hole 10 is mounted on the base 5 from the side of the holder 7 with a partial overlap of the through hole 12. The washer hole 10 is closed by the plug 11 installed therein. Between the plug 11 and the divider 8, a destructible element 6 is installed. The destructible element 6 can be made in the form of a glass capsule with liquid. On the base 5, on the side of the holder 7, a fastener 22 is located. The fastener 22 can be made in the form of a stand, a cup attached to the base 5 or a curved wire. The destructive element 20 is mounted on the fastener 22 with the possibility of acting on the destructible element 6. The wires 21 are connected to the destructive element 20. The destructive element 20 is a small amount of explosive placed in the shell, the ejection of which comes from an electric pulse coming through the wires 21. Destructible the element 6 is pressed against the plug 11 using a divider 8 mounted on the stop 9. The divider 8 can be made in the form of a screw. The base 5, the holder 7, and the emphasis 9 can be made in the form of a single integral form without joints.

Utility Model Implementation

The device operates as follows. The sprinkler 14 is placed on the ceiling 13. Through the pipe 16, the sprinkler 14 is connected to the pump 17. The pump 17 provides the supply of water 15 to the pipe 16. The sprinkler 14 is connected to the pipe 16 vertically so that there is a filter 2 with holes 1 at the top and a stop at the bottom 9 divider 8. Connecting pipe 16 is performed as follows: the pipe 16 is screwed to the sprinkler 14 on the basis of closure thread 5. It is also possible to connect to the pipe 16 via the threaded coupling _^half ". Coupling threaded _^1/2 "welded to the pipe 16 and is screwed into it Sprinkler 14.

If there is a fire 18 on the floor 19 to the destructive element 20 through the wires 21, which can be removed in the box, an electrical control pulse is supplied. The pulse can be supplied in automatic, manual or remote modes. Under the influence of an electric pulse, the explosive of the destructive element 20 is ejected. The release leads to the destruction of the destructible element 6 (the impact on the destructible element 6 can be carried out mechanically, for example, by flying apart fragments of the shell of the destructive element 20). After that, the water 15 pushes the plug 11 with its pressure. Then, the outflow of water 15 begins. Passing the filter 2, the water 15 through the channel 3 reaches the divider 8, which provides spraying (dispersion) of the flow.

The principle of operation of this sprinkler 14 is based on the interaction of fluid flows inside the jet due to their redistribution upon contact with the surface of the divider 8, which is normal to the axis of the jet. The jet in close proximity to the surface is characterized by an almost cylindrical shape, coinciding with the axis of contact, and the area of spreading. The surface of the spreading area has an area smaller than the cross-sectional area of the jet.

As a result of this, the internal part of the stream of the jet, when it contacts the surface of the contact area, changes its direction by 90 °.

The outer part of the flow tends to continue moving along the axis of the jet, bypassing the spreading section. If we consider an elementary particle of a jet located at the boundary of two internal mutually perpendicular flows, we see that two forces act on it, which give one resultant one, which tends to push the liquid particle out of the stream in a certain direction.

The ratio of the spreading area and the cross-sectional area of the jet is selected in such a way that the resulting force ensures the fragmentation of the stream into finely divided droplet homogeneous jets with high kinetic energy. In this case, the droplets receive a rotation moment, ensuring their soaring in space and uniform irrigation of the protected surface. Sprinkler 14 operates at a water pressure of (15) from 0.5 MPa to 1.2 MPa.

Thus, as a result of placing an additional destructive element in the device in a certain way, the device is triggered in any case, regardless of the direction of movement of the heat flux from the source of ignition.

Claims (1)

A sprinkler containing a base with a channel made in it, a holder, an abutment with a divider fixed on it, a destructible element and a plug, the holder being fixed on the base and holding the divider in alignment with the channel, the plug being installed to ensure that the channel is blocked inoperative, it is destructible the element is installed between the cork and the divider with the possibility of the cork moving to a position in which the opening of the channel is ensured when the destructible element is destroyed, the diameter of the divider on the sides channel is less than the channel diameter, characterized in that it introduced destructive element, wires and fixing, wherein the fixing is established based on the carrier side, breaking element is mounted on the mount side erodible element, the element attached to the damaging of the wire.