SE504325C2 - Sprinkler head release device - Google Patents

Abstract

A sprinkler head triggering apparatus, comprising a spray nozzle with an actuator (14) being releasable by heating to a certain temperature, and which normally holds a valve piston (15) in a closed position against a valve seat. The valve piston, at release of the actuator, is movable in a piston sleeve in the direction away from said seat, for opening a flow passage (19-22) from a feed line for pressurized water to the spray nozzle. The flow passage (19-22) is openable in the normal closed position of the valve piston (15) with intact actuator (14), via a remote control operated pilot piston (32).

Description

15 20 25 30 35 504 325 2 valves for activating any number of sprinkler heads, either during function testing or when detecting an alarm condition, e.g. via smoke detector. In these sprinkler systems, the sprinkler heads thus lack a release device and the supply lines between valve centers and sprinkler heads are consequently dry.

A significant disadvantage of these "modern" sprinkler systems is that each individual sprinkler head, or individual group of sprinkler heads, which are to be maneuverable separately, must have a separate supply line to the valve center. This means that many supply pipes must be laid in parallel, which makes the installation more expensive. In addition, such a system provides higher flow resistance than a system branching from a common trunk.

TECHNICAL PROBLEM An object of the present invention is therefore to provide a trigger device which is directly activatable both mechanically by means of heat protection, and by means of electrical remote control, e.g. via smoke detector, without the need for special flow valves. A further object is to provide a trigger device which can easily be functionally tested.

THE SOLUTION This is achieved according to the invention, in that the flow passage is openable in the normal closing position of the valve piston with intact fuse, via a remote-controllable pilot piston, that the valve piston is provided with a central bore and a first angular passage, and that the central bore and the first angular passage together with a second angular passage through a bulb screw and a space forms the flow passage openable by the pilot piston. The invention appears from the Advantageous variants of the appended subclaims. DESCRIPTION OF THE DRAWINGS The invention will be described below with reference to exemplary embodiments shown in the accompanying drawings, in which Fig. 1 is a partially sectioned view of a trigger device designed according to the invention, Fig. 2 shows in some on a larger scale a secondary piston included in the release device, Fig. 3 shows a valve piston included in the release device, and Fig. 4 shows a bulb screw included in the release device.

DESCRIPTION OF EMBODIMENTS The trigger device according to the invention is shown in the following exemplary embodiments together with a sprinkler head of a special high-pressure type, but the invention is not limited to this type of sprinkler nozzles.

The nozzle comprises a holder 10 which forms a bracket for a nozzle head 11. This head 11 is in turn mounted in the holder 10 by means of a bulb screw 12 which projects with one end into the holder and at its other end carries a bulb guard 13. A glass bulb 14 is mounted at the outer end of a valve piston 15, which is slidably mounted inside the bulb screw 12, in such a way that the piston 15 is held in a closed position against a valve seat. This valve seat is formed by a conical part 16 of a secondary piston 17.

If the glass bulb 14 is exposed to heat above a certain temperature, e.g. 70 ° C, the bulb breaks and the valve piston 15 can move in the downward direction in Fig. 1, by the action of a liquid pressure prevailing in the space 18. This pressure is transmitted to the space via a supply line (not shown) which is connected perpendicular to said space, and acts against the end edge of the valve piston 15, which in this end portion is provided with an axially directed, central bore 19. When the valve piston 15 10 15 20 25 30 35 504 325 4 is thus pressed from the seat of the secondary piston 17, the water penetrates into the central bore 19 and further via a first angular passage 20 through the piston wall and a second angular passage 21 through the bulb screw 12 into a space 22 between the holder 10 and the nozzle head 11.

The water can then flow out of the sprinkler head via channels not shown in the contact surfaces between the holder 10 and the nozzle head 11. Apart from said channels, these contact surfaces are sealed by means of an O-ring 23.

The functional process described above thus takes place when the glass bulb is heated above a certain temperature. In the case of the high-pressure sprinkler system described above, it is then suitable that the pressure drop in the supply line, when activating the sprinkler head, affects a pressure-sensing valve which starts pumps for supplying high-pressure sprinkler water, e.g. 200 bar.

Functional test or * triggering of the sprinkler head in the manner, line center, is made possible in the following manner. other e.g. via a smoke detector or from a Secondary piston 17 is slidably mounted in a piston bore 24 the holder 10, the valve piston 15 in which piston bore is coaxial with the bulb screw 12. A compression spring 25 abuts an angular shoulder 26 inside the guide inside a pilot piston cylinder 27 which is screwed on the upper the end of the holder 10. The spring 25 is pressed with a slight force against an end edge 28 on the upper side of the secondary piston, as shown in Fig. 1, or the left side, as shown in Fig. 2.

As best seen in Fig. 2, the secondary piston 17 is provided with a first channel 29, which extends between both ends of the piston 17 and forms a connection between the space 18 on and the space 30 which one side of the piston accommodates the compression spring 25, so that the same pressure prevails at both ends of the piston. In addition, the secondary piston 17 is provided with a second parallel channel 31, which has a larger cross section than the first channel 29. This second channel 31 extends along the center axis of the piston and is normally closed by a pilot piston 32 which is slidably arranged inside the pilot piston cylinder 27. , coaxial with the valve piston 15 and the secondary piston 17.

The pilot piston 32 is normally held in its closed position against the mouth of the second channel 31 of the secondary piston 17 by the action of a compression spring 33. In addition, the pilot piston is operable by means of a solenoid 34 which is electrically controllable via a cable connection 35.

When activating the solenoid 34, the pilot piston 32 is pulled upwards in Fig. 1 against the action of the compression spring 33. In this case, the channel 31 is opened, which leads liquid from the space 30 via the central bore 19 of the valve piston, the angular passages 20, 21 and the sprinkler channels and the space 22 out of the sprinkler head . At the same time, a smaller flow of liquid flows from the space 18 via it. This compensates for the pressure difference between the two other channels 28 of the secondary piston. between the two spaces 18, 30, which means that the piston 17 is pressed / pulled in the upward direction in Fig. 1. Hereby the valve seat is opened between the secondary piston 17 and the end of the valve piston 15 and the discharge of sprinkler water takes place in the same way as in the previous functional example.

This flow can be interrupted by deactivating the solenoid.

In this case, the channel 31 is closed and the secondary piston 17 is pressed down in Fig. 1 towards the end of the valve piston 15 and closes the bore 19.

Thus, function testing can be done by a short activation of the solenoid.

Claims (10)

10 15 20 25 30 35 504 32.5 PATENT REQUIREMENTS Sprinkler head release device, comprising a spray nozzle with a fuse (14) which can be released by heat at a certain temperature and which via a bulb screw (12) normally holds a valve piston (15) in the closed position against a seat, which valve piston, when the fuse releases, in a piston race in the direction of said seat, for opening a flow passage (19-22) from a supply line for pressurized water to the spray nozzle, characterized in that the flow passage (19-22) is openable in the normal closing position of the valve piston (15) with intact fuse (14), via a remotely operable pilot piston (32), that the valve piston (15) is provided with a central bore (19) and a first angular passage (20), and that the central bore and the first angular passage together with a second angular passage (21 ) through a bulb screw (12) and a space (22) forms the flow passage openable by the pilot piston (32). Release device according to claim 1, characterized in that the pilot piston (32) is slidably mounted in a piston race between a secondary piston (17) and at least one spring means (25, 33). Release device according to Claim 2, characterized in that the valve piston (15) is arranged coaxially. with the pilot piston (32) placed between the valve piston and the secondary piston (17), and that the valve piston is displaced from its rest position by the action of a liquid pressure acting on one side of this piston. Release device according to Claim 2 or 3, characterized in that one end of the secondary piston (17) forms the seat of the valve piston (15). Release device according to claim 4, characterized in that the secondary piston (17) is provided with a first channel (29) of small cross-section, which first channel extends through this piston and transmits the liquid pressure from one end of the piston to the other. Release device according to claim 5, characterized in that the secondary piston (17) is further provided with a second channel (31) larger from a cross section, which second channel also extends one side of the piston to the other. Release device according to claim 6, characterized in that the second channel (31) can be opened and closed by means of the pilot piston (), an opening of this channel leading to a pressure reduction at the seat opposite end of the secondary piston (17), so that it is moved by the pressure difference in the direction from the valve piston (15), for opening the flow passage (19-22) from the supply line for pressurized water to the spray nozzle. Release device according to Claim 7, characterized in that the movement of the secondary piston (17) takes place against the action of a compression spring (25). Release device according to Claim 1, characterized in that the pilot piston (32) can be operated by means of an electromagnet (34). 10. A release device according to claim 1, characterized in that the supply line for pressurized water is directly connected, without special valve means, to one or more supply pumps via a pressure switch which starts said pump when detecting a pressure change.