EP0701842B2 - Spray nozzle for the atomization of water in fire protection apparatus - Google Patents

Abstract

The spray nozzle housing (1) contains a turbulence chamber (13) connected to the nozzle opening (5). The opening is tightly sealed by a seal (18,20) resting against the outside of the housing. The seal is pressed against the housing by a cylindrical, hollow pressure body (25) of glass or other material which is flexible at a release temperature. The end of the pressure body facing away from the seal is supported on the part joined to the housing. The pressure body is supported on an adjusting screw (28) or spring.

Description

The invention relates to a spray nozzle in the Preamble of claim 1 mentioned type for nebulization of water in fire protection systems.

From the company brochure "herzog Wasservernebelungstechnik" from the company herzog-Wasservernebelungstechnik GmbH, 39387 Oschersleben, is one Spray nozzle of the type in question is known which a swirl chamber has narrow, helical Channels are located that are narrow, coaxial Guide the nozzle opening. Through the helical channels the water flowing through is rotated. On the radial path inward to the narrow, coaxial nozzle opening becomes the rotation speed considerably increased, so that the liquid at the exit from the nozzle opening through the then effective centrifugal forces torn apart to form a spray becomes.

This well known spray nozzle is in the way used multiple spray nozzles over piping connected to a common shut-off valve are. The shut-off valve is through a pipeline that goes up to the shut-off valve with pressurized water is filled, connected to a water supply. The nozzle openings of the spray nozzles are not closed. An increase caused by a fire determining the ambient temperature is one Hose line provided that is made of a thermoplastic Material exists and with a control pressure standing water is filled. The control pressure is monitored by a pressure switch or the like, through which the shut-off valve can be controlled. Exceeds the ambient temperature due to a Brandes a predetermined temperature, this leads to a burst of the hose line and thus to one Drop in the control pressure in the hose line, so that the shut-off valve opens. Then it flows under Pressurized water through the pipes to the Spray nozzles and passes through the respective nozzle opening from, in the manner described above forms a spray mist in the spray nozzles.

A disadvantage of the known spray nozzle is in that the hose line that the control pressure in pressure switches monitoring the hose line and the shut-off valve controlled by the pressure switch are complex and therefore expensive.

The hose line must pass through all fire risk areas Areas are relocated so that for surveillance large areas, large amounts of hose required are. This is expensive and complex when laying the hose line. In addition, in the long hose line temperature fluctuations can lead to a drop in pressure. Falls below Control pressure in the hose line a predetermined Value, the shut-off valve opens without a fighting fire. Even with leaks, leading to water leakage from the hose line and a drop in the control pressure in the Lead hose line, there is a risk of False tripping. Such false trips have unnecessary Water damage.

After a fire, the whole Hose line replaced and relocated. Then the must be restarted Hose line to be filled with water and under the control pressure be set. This is expensive and time consuming.

Because there are several spray nozzles with the same shut-off valve are connected to a local Fire also put spray nozzles into operation by the Place the fire away. This leads to unnecessary Water damage.

The nozzle opening of the spray nozzle is permanent open so that it can easily become dirty. this leads to impair the function of the spray nozzle.

There are, for example from DE-OS 25 39 703, sprinkler nozzles are known, where in front one formed in a housing of the sprinkler nozzle Outlet opening is arranged a baffle that over Retaining bracket connected to the sprinkler nozzle housing is. Arranged centrally in the impact area Set screw is based on a substantially cylindrical Bursting body with its outlet opening end facing a sealing body which the The outlet opening is sealed and holds in the sealing position. The supply lines are up to the sprinkler nozzles Filled with water.

In the event of a fire, the bursting body bursts when a trigger temperature is reached so that the Sealing body is pushed outwards and a bundled Water jet emerges from the outlet opening and on the baffle arranged in the blasting area hits, which distributes the water jet laterally. This creates Drops of water that are sized for those Firefighting is not optimal and is often unnecessary Water damage.

An essential difference between one Spray nozzle of the type in question and a sprinkler nozzle consists of a baffle on a sprinkler nozzle necessary for the lateral distribution of the water is, while a baffle is not required with a spray nozzle but the water when it exits the Torn open nozzle opening to a spray and is distributed in this way.

GB-A-2 076 652 is a triggering system of different sprinkler system nozzles known, in which two pear-shaped bodies with pointed Ends and a separating disc in a housing are arranged, being on the upper pear-shaped Body a closure piece closing the nozzle is arranged, which against the nozzle body acts and with a seal the channel Nozzle seals. In the event of a fire, the lower pear body destroyed by mechanical action, so that the closure is pushed out by the pressure of the extinguishing agent becomes. The disadvantage of this solution is that the spring located in the lower part of the device the closure directly against the sprinkler housing presses so that it is destroyed at high contact pressure the pumice-shaped body can come. Farther the closure part must first travel a certain distance put it back before the path of the extinguishing agent releases, the seal of the closure part opposes the pushing out. It is not clear from the document whether the described one Closure is suitable at all on a particular To be arranged nozzle shape.

The invention has for its object a Specify spray nozzle of the type in question, the said Does not have disadvantages that are simple in construction and is therefore inexpensive to manufacture, by Drop sizes that are not optimal for fire fighting and false triggering, unnecessary water damage are avoided and that after a fire can be restored in a simple and time-saving manner is.

This object is achieved by the in claim 1 specified teaching solved.

Based on the accompanying drawings Invention explained in more detail become.

The figures are not embodiments of the invention, but examples of easier understanding of the invention.

Fig. 1

ein Beispiel einer erfindungsgemäßen Sprühdüse im Ruhezustand in teilweise geschnittener Seitenansicht,

Fig. 2

eine Ansicht von unten der Sprühdüse gemäß Fig. 1 und

Fig. 3

die Sprühdüse gemäß Fig. 1 im Betriebszustand in teilweise geschnittener Seitenansicht,

Fig. 4

ein Beispiel einer anderen erfindungsgemäßen Sprühdüse im Ruhezustand in teilweise geschnittener Seitenansicht,

Fig. 5

eine Ansicht von unten der Sprühdüse gemäß Fig. 4,

Fig. 6

eine Seitenansicht der Sprühdüse gemäß Fig. 4,

Fig. 7

in Seitenansicht die Sprühdüse gemäß Fig. 4 beim Lösen des Stützteiles von dem Gehäuse,

Fig. 8

ein in gleicher Darstellung wie Fig. 4 ein drittes Beispiel einer Sprühdüse im Ruhezustand und

Fig. 9

einen Teilschnitt IX-IX in Fig. 8.

Show it

Fig. 1

an example of a spray nozzle according to the invention in the rest state in a partially sectioned side view,

Fig. 2

a bottom view of the spray nozzle according to FIG. 1 and

Fig. 3

1 in the operating state in a partially sectioned side view,

Fig. 4

an example of another spray nozzle according to the invention in the rest state in a partially sectioned side view,

Fig. 5

3 shows a view from below of the spray nozzle according to FIG. 4,

Fig. 6

3 shows a side view of the spray nozzle according to FIG. 4,

Fig. 7

4 the side of the spray nozzle according to FIG. 4 when the support part is detached from the housing,

Fig. 8

a in the same representation as Fig. 4, a third example of a spray nozzle in the idle state and

Fig. 9

a partial section IX-IX in Fig. 8.

The same components are in the figures with the provided with the same reference numerals.

The spray nozzle shown in Fig. 1 has Housing 1 with an external thread 2 for screwing in the nozzle into a feed line, not shown on. The housing 1 has a cylindrical inner wall 3, which merges into a conical inner wall 4 and opens into a nozzle opening 5. That of the nozzle opening 5 opposite end 6 of the cylindrical inner wall 3 is provided with an internal thread 7, into which a nozzle part 8 is screwed with an external thread 9 is. The nozzle part 8 faces the nozzle opening 5 opposite end 10 a feed opening 11 through which water from the supply line of the Spray nozzle is supplied. The nozzle part 8 has on it Narrow, helical channels 12 on the outside, and between the nozzle part 8 and the cylindrical inner wall 3 or the conical inner wall 4 a swirl chamber 13 is formed which is connected to the nozzle opening 5 is connected. One to the nozzle opening 5 coaxial, annular region 14 of the housing 1 is a bracket 15 which extends from the housing 1 of the nozzle opening 5 extends away, with one on his the housing 1 facing end formed annular Area 16 attached and by screws, from of which only one screw 17 is shown as an example, releasably connected to the housing 1. In the in Fig. 1st shown idle state of the spray nozzle is the nozzle opening 5 closed by a sealing body which a sealing sleeve 18 and one in an annular groove 19, the on the side of the nozzle opening 5 facing Sealing sleeve 18 is formed, arranged sealing ring 20th made of elastomeric material. At her the nozzle opening 5 facing side has the sealing sleeve 18th a centering pin 21 coaxial to the annular groove 19 which extends into the nozzle opening 5. On your the side facing away from the nozzle opening 5 has the sealing sleeve 18 has a central bore 22 which extends from the nozzle opening 5 away in a substantially conical Area 23 expanded to include an investment area 24 is formed for a pressure body 25. The pressure body 25 is in this embodiment by a Hollow body made of glass filled with alcohol. The end of the pressure body facing the nozzle opening 11 25 is essentially conical and lies on the contact surface 24 of the sealing sleeve 18th on. The end of the pressure element facing away from the nozzle opening 5 25 is spherical. By an in an internal thread 26 of a bore 27 of the bracket 15 screwed set screw 28, the pressure body 25 facing end 29 a spherical indentation 30 to rest on the spherical end of the pressure body 25, the pressure body 23 and the sealing body in the direction of the nozzle opening 5 preloadable. It can be seen that with increasing Screwing the set screw 28 into the Internal thread 26 of the bore 27 of the pressure element 25 and the sealing sleeve 16 with elastic deformation of the Sealing ring 20 continues in the direction of the nozzle opening 5 are biased so that in this way the nozzle opening 5 is tightly sealed and an exit from Water is prevented when the spray nozzle is at rest.

From Fig. 2 it can be seen that the bracket 15th is narrow, so that in the operating state of the spray nozzle can form a spray that spreads over one extends wide area of the circumference of the spray nozzle. It is therefore only a small one by the bracket 15 Spray shadow causes the extinguishing effect of the Spray nozzle not significantly affected.

When the ambient temperature rises the alcohol contained in the pressure body 25 expands until the pressure body 25 when reaching one by the amount and expansion properties of the alcohol given ambient temperature Yields. As a result, the sealing sleeve 18 with the sealing ring 20 under the pressure of the in Spray nozzle standing water from the nozzle opening 5 is pushed out and falls out. The spray nozzle thus goes into the operating state shown in FIG. 3 above, in which the nozzle opening 5 is open. The water flows through the narrow, helical channels 12, is swirled in the swirl chamber 13 and occurs out of the nozzle opening 5, so that under the Spray nozzle forms a spray mist.

The spray generated in this way is due to its small droplet size, good for that Fighting a fire is suitable, with one Fire only put those spray nozzles into operation be in the vicinity of the temperature as a result of a fire exceeded the specified value Has. Unnecessary water damage is therefore reliable avoided.

4 is a second example a spray nozzle, the one designed as a fork with two legs 31, 32 Has support part 33. The free ends of the legs 31, 32 are designed as hooks 34, 35 which pass through a projection 36 formed on the housing 1 reach behind positively. A contact surface 37 for the hooks 34, 35 on the collar 36 is towards the support member 33 designed to expand conically. The support part 33 is designed to be spreadable, and the legs 31, 32 are each in the direction of an arrow 38, 39 which indicates the direction of expansion symbolizes, agile.

The legs 31, 32 consist of spring steel and thus form spring means which the legs 31, 32 in the 4 shown in the rest position in the spreading direction Pretension. The legs 31, 32 each have one inward tab 40, 41, each one in the example shown in Fig. 4 as Has elongated hole 42, 43 formed recess. In the rest position, the tabs 40, 41 are approximately parallel to each other arranged. The tab 41 has at its free End of a nose facing the other tab 40 44 on, which ensures that the tabs 40, 41 in the direction symbolized by a dash-dotted line 45 Nozzle axis spaced apart are.

In the rest position shown in Fig. 4 supports the pressure body 25 with its the nozzle opening 5 facing away from the screw 28 of the Support part 33 and presses with its the nozzle opening 5 facing end via the sealing sleeve 18 the Sealing disc 20 around the centering pin 21 against that Housing 1, so that the nozzle opening 5th is tightly closed. The pressure body extends 25 through the elongated holes 42, 43 of the tabs 40, 41, which thus engage behind the pressure body 25, so that the legs 31, 32 in the rest position against spreading are secured.

FIG. 5 shows a view from below in FIG. 4 the spray nozzle. It can be seen that the collar 36 on its scope two in this example radial recesses formed by flats 47, 48 having diametrically opposite and whose diametrical distance is the diametrical distance the free ends formed as hooks 35, 36 Legs 31, 32 corresponds. To assemble the Spray nozzle are the legs 31, 32 of the support member 33 compressed and biased in this way. Then the pressure body 25 of the free Ends of the legs 31, 32 forth through the elongated holes 42, 43 inserted until its facing the adjusting screw 28 End at the set screw 28 to the system comes. Then the support member 33 with the pressure body inserted 25 in a rotational position in which the hooks 34, 35 are located in the area of the flats 47, 48, placed axially on the housing 1. Then it will Support part 33 on the housing 1 about the nozzle axis 45 rotated by about 90 ° so that the hooks 34, 35 the collar 36 reach behind the housing 1. In this way is the support part 33 in the manner of a bayonet lock secured to the housing 1 so that the assembly of the spray nozzle according to the invention during manufacture or when recovering from a Brand is particularly easy.

Fig. 6 shows a side view of the spray nozzle at rest.

The mode of operation is described below with reference to FIG. 7 this Spray nozzle explained. in case of a The temperature rises in the area of fire Spray nozzle until a trigger temperature is reached the pressure body 25 yields. This has the consequence that the legs 31, 32 with their tabs 40, 41 the pressure body 25 no longer reach behind, so that the biased legs 31, 32 in the direction of the arrows 38,39 move and the support member 33 spreads. Thereby, that the recesses in the tabs 40, 41 are formed as slots 42, 43 and through the Distance in the direction of the nozzle axis of the tabs 40, 41 to each other ensures that the movement of the Legs 31, 32 and thus the spreading of the support part 33 not by remaining parts of the pressure body 25 is disabled.

By moving the legs 31, 32 in The hooks 34, 35 come in the direction of the arrows 38, 39 free from the collar 36 so that the support member 33 from the housing 1 releases and in the shown in Fig. 7 Installation position of the spray nozzle falls down. The release the hook 34, 35 of the collar 36 is thereby supports that the contact surface 37 to the Support part 33 expanded conically.

When the pressure body 25 yields the sealing sleeve 18 with the sealing ring 20 under pressure of the water in the spray nozzle to the outside pushed away so that the spray nozzle in the operating state transforms. The fact that the support member 33 at Giving the pressure body 25 from the housing 1 has solved, the area in front of the spray nozzle is free, so that the spray mist is in front of the spray nozzle can spread. There is no spray shadow, so that the extinguishing effect of the Spray nozzle in the shown in Figures 4 to 7. Example is further improved.

In Fig. 8, a third example is one Spray nozzle shown that itself differs from the example according to FIG. 4 in that that the pressure body 25 is not on a Set screw, but is supported on a spring that in this embodiment by a leaf spring 49 is formed, which with the resilient legs 31, 32nd is formed from one piece. The leaf spring 49 clamps the pressure body 25 in the direction of the Nozzle opening 5 in front; their spring force is measured that the spray nozzle under all occurring pressure conditions does not open in the feed line, but only in case of fire. In addition, the leaf spring 49 is the same Manufacturing tolerances. The pressure body 25 protrudes with its end facing away from the nozzle opening 11 in one formed in the area of the free end of the leaf spring 49 Recess 50 into it.

FIG. 9 shows a section IX-IX in FIG. 8. It can be seen that the leaf spring 49 with the Legs 31, 32 consists of one piece and in which 9 shows the idle state of the spray nozzle with its free end in the direction of the nozzle opening 5 is bent that one of the nozzle opening 5 facing Part of the leaf spring 49 in which the recess 50 is formed, to one facing away from the nozzle opening 5 Part with a distance and approximately parallel to this is arranged.

Claims (12)

1. Spray nozzle for atomising water in fire protection systems,

   having a housing (1),

   having a turbulence chamber (13) disposed in the housing (1), and

   having a nozzle opening (5), which is connected to said chamber, a sealing body (18) which abuts against the housing (1) and tightly closes the nozzle opening (5), and a pressing body (25) shich yields at a release temperature, presses the sealing body (18) against the housing (1) and is supported by its end remote from the sealing body (18) on a member (29) which is connected to the housing,

   characterised in that the sealing body (18) has a seal (20), which lies in an annular groove (19), around a centering pin (21) which protrudes into the nozzle opening (5),
   in that the pressing body (25) is supported on a supporting member (33), which is detachably connected to the housing (1),
   in that the supporting member (33) is configured as a fork with two side portions (31, 32) which are displaceable in the expanding direction,
   in that, in one inoperative position, the ends of the side portions (31, 32) engage behind radial projection members on the housing (12) in a form-locking manner,
   in that resilient means are provided, which prestress the side portions (31, 32) in the expanding direction, and
   in that the side portions (31, 32) have projection members which engage behind the pressing body (25) ins uch a manner that, in the inoperative position, the side portions (31, 32) are prevented from expanding.
2. Spray nozzle according to claim 1, characterised in that the least one of the side portions (31, 32) of the supporting member (33) is configured as a spring and thus forms the resilient means.
3. Spray nozzle according to claim 2, characterised in that the side portion or the side portions (31, 32) is or respectively are formed from spring steel.
4. Spray nozzle according to claim 1, characterised in that the projection members of the side portions (31, 32) are each formed by an anwardly extending lug (40, 41), which has a respective recess through which the pressing body (25) extends in the inoperative position.
5. Spray nozzle according to claim 4, characterised in that, in the inoperative position, the lugs (40, 41) are disposed with a spacing between each other when viewed with respect to the direction of the nozzle axis (45).
6. Spray nozzle according to claim 5, characterised in that at leasst one of the lugs (41) has a projection (44), which faces the other lug (40), to ensure a spacing between the lugs (40, 41).
7. Spray nozzle according to claim 6, characterised in that each lug (40, 41) forms one piece with the respective side portion (31, 32).
8. Spray nozzle according to claim 2, characterised in that the spring is configured as a leaf spring (49) which is preferably integral with the resilient side portions (31, 32).
9. Sprax nozzle according to claim 4, characterised in that the recesses are closed or laterally open.
10. Spray nozzle according to claim 4, characterised in that, when the recesses abut against the pressing body (25), they are widened on their side remote from the pressing body and, more especially, they form elongate slots (42, 43).
11. Spray nozzle according to claim 1, characterised in that the collar (36) has, on its periphery, two radial recesses (47, 48) which lie diametrically opposite each other and have a diametrical spacing therebetween which corresponds to the diematrical spacing between the free ends (34, 35) of the side portions (31, 32) in the inoperative position.
12. Spray nozzle according to claim1, characterised in that the projection members on the housing (1) are formed by a collar (36) and the abutment face (37) for the ends (34, 35) of the side portions (31, 32) against the collar (36) is configured so as to widen conically towards the supporting member (33).

Images