NL2018684B1 - Fire-fighting lance - Google Patents

Fire-fighting lance Download PDF

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Publication number
NL2018684B1
NL2018684B1 NL2018684A NL2018684A NL2018684B1 NL 2018684 B1 NL2018684 B1 NL 2018684B1 NL 2018684 A NL2018684 A NL 2018684A NL 2018684 A NL2018684 A NL 2018684A NL 2018684 B1 NL2018684 B1 NL 2018684B1
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NL
Netherlands
Prior art keywords
lance
outlet
fluid
channel
spray nozzle
Prior art date
Application number
NL2018684A
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Dutch (nl)
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NL2018684A (en
Inventor
Cristanini Adolfo
Original Assignee
Cristanini Spa
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Publication date
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Publication of NL2018684A publication Critical patent/NL2018684A/en
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Publication of NL2018684B1 publication Critical patent/NL2018684B1/en

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Classifications

    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C31/00Delivery of fire-extinguishing material
    • A62C31/02Nozzles specially adapted for fire-extinguishing
    • A62C31/03Nozzles specially adapted for fire-extinguishing adjustable, e.g. from spray to jet or vice versa
    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C31/00Delivery of fire-extinguishing material
    • A62C31/02Nozzles specially adapted for fire-extinguishing
    • A62C31/05Nozzles specially adapted for fire-extinguishing with two or more outlets
    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C99/00Subject matter not provided for in other groups of this subclass
    • A62C99/0009Methods of extinguishing or preventing the spread of fire by cooling down or suffocating the flames
    • A62C99/0018Methods of extinguishing or preventing the spread of fire by cooling down or suffocating the flames using gases or vapours that do not support combustion, e.g. steam, carbon dioxide
    • A62C99/0027Carbon dioxide extinguishers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B1/00Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means
    • B05B1/14Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means with multiple outlet openings; with strainers in or outside the outlet opening
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B1/00Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means
    • B05B1/14Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means with multiple outlet openings; with strainers in or outside the outlet opening
    • B05B1/16Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means with multiple outlet openings; with strainers in or outside the outlet opening having selectively- effective outlets
    • B05B1/1681Nozzles, spray heads or other outlets, with or without auxiliary devices such as valves, heating means with multiple outlet openings; with strainers in or outside the outlet opening having selectively- effective outlets with a selecting mechanism comprising a gate valve, sliding valve or cock and a lift valve

Abstract

A fire-fighting lance comprising at least one first duct (18); a second supply duct (8) that includes a misting nozzle (9); a first diverting valve (10) having a first and a second outlet (12, 13) respectively connected to the first and to the second duct (18, 8); first selecting means (14) to convey a pressurized fluid selectively and alternatively towards the first outlet (12) or towards the second outlet (13); a third supply duct (5); and second selecting means (19) to alternatively and selectively convey the fluid flowing from the first outlet (12) towards the first supply duct (18) or towards the third supply duct (5). The lance (1) further comprises a cylindrical slider (40) configured so as to intercept the jet flowing from the first duct (18) to modify the width thereof.

Description

Background of the invention
Numerous embodiments of fire-fighting lances are known. In particular, the patent CN201939919 whose owner is Shaanxi Yinhe Fire Fighting Technology and Equipment Co. Ltd describes a lance having a handle, a controlling lever acting upon an inner valve for the selective supply of a flow of water to be directed on the fire, an inlet of pressurized water and a duct with an opening for the exit of the flow of water. The duct is provided with a nozzle to spray the water, placed near the opening for the exit of the duct.
An evident drawback of the known solution is the fact that a single duct with a single nozzle for the supply, even if it is adjustable, it may not be suitable for different types of fires. Moreover, even during the extinguishment of the fire thereof the optimal conditions of water supply may vary rapidly during the extinguishment. Therefore, a further drawback of the known solution is the fact that it does not allow a fast and safe adjustment of the flow of water.
A further drawback of the known solutions lies in the fact of not comprising an outlet nozzle of the water designed to obtain a misting and a dispersion of the optimized droplets of water.
Another drawback of the known solutions lies in the fact of not allowing to generate a jet of sprayed water with finely dispersed droplets and subsequently to generate in an easy manner a jet of not misted water.
From documents EP1930083, FR2930167 and FR2741540 further firefighting lances are known.
Moreover, such known solutions provide lances hardly movable and not suitable for the use in narrow spaces.
Summary of the invention
Object of the present invention is to at least partially overcome the above mentioned drawbacks, by providing a lance that allows to supply different types of jets of liquid to extinguish a fire.
Another object of the invention is to provide a lance that allows to select the type of flows supplied during the use thereof.
Another object of the invention is to provide a lance that allows an optimum misting and dispersion of the particles of the liquid.
Another object of the invention is to provide a lance that allows to adjust in an easy manner, besides the type of jet of the liquid, even the longitudinal flow range and the amplitude of the supplied jet of fluid.
A further object of the invention is to provide a lance that may be used in narrow and / or restricted spaces.
A further object of the invention is to provide a lance that may be used by an operator using only one hand.
These objects, as well as others that will appear more clear hereinafter, are fulfilled by a lance according to claim 1.
Advantageous embodiments of the invention are defined according to the appended claims.
Brief description of the drawings
Further features and advantages of the invention will appear more evident by reading the detailed description of a preferred but not exclusive embodiment of a fire-fighting lance according to the invention, shown by way of non-limiting example with the help of the annexed drawings, wherein:
FIGs. la and lb are a perspective view of a lance according to the invention in two different operating phases;
FIG. 2 is an exploded perspective view of the lance of FIG. 1;
FIGs. 3a, 4a and 5 are a partially sectioned view of a lance according to the invention in different operating positions;
FIGs. 3b and 4b are an enlarged view of certain details, respectively, of FIG. 3a and FIG. 4a;
FIG. 6 is an enlarged perspective view of a detail of the lance of FIG. 1;
FIG. 7 is an enlarged perspective view of a further detail of the lance of FIG. 1. Detailed description of some preferred embodiments
With reference to the above mentioned figures, it is described a fire-fighting lance, generally indicated with the reference number 1, for the supply of a jet of fluid on the flames to be extinguished. The lance 1 comprises a handle 2 for the grabbing by the user and an inlet line 3 of the pressurized fluid that may be supplied by a suitable supply hose, not shown in the drawings. The lance 1 may include a coupling 4 placed near the handle 2 to connect the supply hose.
Furthermore, the lance 1 comprises at least one first duct 18 defining a first longitudinal axis L for the supply of the jet of fluid and a main valve 6 to selectively put the inlet line 3 in fluid communication with the first supply duct 18. The main valve 6 may be actuated by a first controlling lever 7 placed near the handle 2, so as the user may easily grab the handle 2 with one hand and with the hand thereof activate the first controlling lever 7 when he wants to release the jet of fluid.
Moreover, the lance 1 comprises at least one second supply duct 8 having a misting nozzle 9 and a first diverting valve 10 to suitably divert the flow rates of fluid directed towards the first and the second supply duct 18, 8. The second supply duct 8 is configured to generate a jet of finely dispersed droplets and it defines a second longitudinal axis L', that may be substantially parallel to the first longitudinal axis L.
Suitably, the two supply ducts 18 and 8 may be superimposed therebetween.
The first diverting valve 10 comprises an inlet section 11 fluidly connected to the main valve 6 and two outlet sections 12, 13 connected respectively to the first and to the second duct 18, 8. First selecting means 14 are provided to convey the flow rate of the fluid through the outlet sections 12, 13 towards the first or the second supply duct 18, 8. Thanks to this arrangement, the first diverting valve 10 is placed fluidly downstream with respect to the main valve 6 so as to receive the flow of fluid when the latter is open, and upstream with respect to the first and to the second supply duct 18, 8 so as to convey in the latter the flow rate coming from the main valve 6.
As shown in the annexed drawings, the first selecting means 14 may comprise a slider 16 housed in a threaded seat 15 of the first diverting valve 10 so as to selectively obstruct the outlet sections 12, 13, The displacement of the slider 16 allows to divert the flow of fluid towards the first and the second supply duct 18, 8. In particular, the user acting upon the first selecting means 14, may completely obstruct the flow of fluid towards the first duct 18 and divert it towards the second duct 8. Conversely, the user always acting upon the first selecting means 14, may completely obstruct the flow of fluid towards the second duct 8 and divert it towards the first duct 18.
As shown in FIG. 2, the first selecting means 14 may comprise a controlling knob 17 fastened on the slider 16, so as the user may easily move the slider 16.
The lance 1 may comprise a third supply duct 5 coaxial with the first duct 18 and inner thereto. Moreover, second selecting means 19 may be provided interposed between the first diverting valve 10 and the first and third supply duct 18, 5 to put the latter alternatively in fluid communication with the first outlet section 12 of the first diverting valve 10. In this way, the second selecting means 19 direct alternatively and selectively the flow of fluid flowing from the section 12 of the first diverting valve 10 towards the first or the third supply duct 18, 5.
The second selecting means 19 may include a second controlling lever 20 rotatable between a first working position wherein the outlet section 12 of the first diverting valve 10 is in fluid communication with the first duct 18, shown in FIG. 4a, and a second working position wherein the outlet section 12 of the first diverting valve 10 is in fluid communication with the third duct 5, shown in FIG. 3a.
The first supply duct 18 may be coaxial to the third supply duct 5 and it may have a substantially annular transverse section, while the third supply duct 5 may be inner to the first supply duct 18 and it may have a substantially circular transverse section.
Suitably, the first supply duct 18 may comprise a first spraying nozzle 24' that, as shown in FIG. 6, comprises a plurality of holes 26 to increase the turbulence of the pressurized fluid and to spray a jet with a relatively high dispersion flowing from the first supply duct 18.
On the other hand, the third supply duct 5 may include a second spraying nozzle 21' to spray a jet with a reduced dispersion flowing from the third supply duct
5.
Suitably, the first spraying nozzle 24' may encompass the second spraying nozzle 21’.
The lance 1 may comprise a single central hole 23 placed substantially along the first longitudinal axis L in correspondence to the ends of the first and third duct
18, 5.
Possibly, the lance 1 may comprise an outlet end member 21 placed in correspondence to the free longitudinal end 22 of the third supply duct 5 and provided with the single central hole 5.
On the other hand, the spraying nozzle 24' may further comprise an annular element 24 placed in correspondence to the terminal end 25 of the first supply duct 18 and peripherally provided with longitudinal holes 26, the latter being in fluid communication with the single central hole 23.
In this way, the fluid that flows from the first supply duct 18 enters in the longitudinal holes 26, that are transversely misaligned with respect to the first longitudinal axis L, and subsequently it converges towards the central hole 23 that, instead, is substantially aligned with the first longitudinal axis L.
This particular configuration determines an increase of the turbulence and it allows to generate a jet of fluid with a relatively high transverse dispersion when the flow of fluid passes through the first supply duct 18, that is, when the controlling lever 20 is in the second working position shown in FIGs. 4a and 5.
According to a further aspect of the invention, the first duct 18 may have a variable length. In particular, the latter may include a tubular slider 40 substantially coaxial with the first duct 18 susceptible to intercept the flow flowing therefrom.
In particular, the tubular slider 40 may slide on the first duct 18 between a first working position wherein the lance 1 has a minimum length LUmin (FIG. lb) and a second working position wherein the lance 1 has a maximum length LUmax (FIG. la).
Suitably, when the tubular slider 40 is in the first working position the jet flowing from the first spraying nozzle 24' may have a maximum transverse dispersion (FIG. 5), while when the same first spraying nozzle 24' is in the second working potion the jet flowing from the first spraying nozzle 24' may have a minimum transverse dispersion and maximum flow range (Fig. 4a).
On the other hand, when the flow of fluid passes through the third supply duct 5, that is, when the controlling lever 20 is in the first working position shown in FIG. 3a, the fluid passes exclusively through the second spraying nozzle 21' and the single central hole 23 that, advantageously, may be substantially aligned to minimize the turbulence so as the jet has a reduced dispersion.
Advantageously, in this case, the flow flowing from the central hole 23 does not intercept the tubular slider 40 so as the jet flowing from the second spraying nozzle 21' has a high flow range.
In particular, the tubular slider 40 may be dimensioned in such a manner that it does not intercept the jet flowing from the third duct 5 nor in the first working position nor in the second working position to allow the flowing jet thereof to have a maximum flow range. To this end, the tubular slider 40 may have suitable length and inner diameter.
In an preferred but not exclusive embodiment of the lance 1 according to the invention, shown in FIG. 2, the annular element 24 may be screwed directly on the free longitudinal end 22 of the third supply duct 5, while the outlet end member 21 may be screwed on the annular element 24.
The misting nozzle 9 may have a wall 27 converging towards an outlet 28 substantially aligned with the second longitudinal axis L’ and it may comprise a dispersion element 29 of the fluid placed upstream of the outlet 28. In particular, this dispersion element 29 may have a longitudinal channel 30 substantially aligned with the outlet 28 and a curved wall 31 faced towards the convergent wall 27 and provided with a plurality of radial slots 32 to allow the displacement of a fraction of fluid in the radial direction and to increase the turbulence and the misting of the jet of fluid.
In an embodiment of the lance according to the invention, shown in FIG. 7, the radial slots 32 of the dispersion element 29 may be angularly spaced therebetween by a predetermined angle and substantially equal to 45°. In another embodiment of the lance according to the invention, not shown in the annexed drawings, the predetermined spacing angle between the radial slots 32 may be of 15° to 30° sexagesimal. The misting nozzle 9 may also comprise a bush 33 to keep the dispersion element 29 in position.
Furthermore, the maximum length LUmax and the weight of the lance 1 may be particularly reduced so as to allow an operator to easily handle the lance 1 thereof with one hand in narrow spaces.
For example, the lance 1 may have a maximum length LUmax lower than 70 cm, and more preferably lower than 65 cm.
According to a particular aspect of the invention, the lance 1 may have a minimum length LUmin of 57 cm and maximum length LUmax of 64 cm.
Furthermore, the lance 1 may be manufactured in such a way so as to have a weight lower than 3 kg, preferably lower than 2,6 kg, and more preferably of 2,2 kg to 2,6 kg in order to facilitate the handling thereof by the user.
Thanks to such a configuration, the user may handle the lance 1 in an easy manner ensuring high effectiveness of a fire extinguishment.
In particular, the lance 1 may be easily handled and moved with one hand so as to facilitate the use thereof during the extinguishment of a fire and / or in a dangerous situation. Moreover, the user with the other hand and without stopping the operation of the lance 1 thereof may act upon the first selecting means 14 and / or the second selecting means 19 and / or upon the tubular slider 40 to vary the type of jet flowing from the lance 1.
The invention provides embodiments, of which some are listed below, and which are, only for the sake of reference, numbered. The invention provides in a first embodiment a fire-fighting lance comprising:
- a handle (2) having an inlet (3) for a pressurized fluid;
- at least one first supply duct (18) defining a first longitudinal axis (L), said first supply duct (18) including a first spraying nozzle (24');
- a second supply duct (8) superimposed on said first supply duct (18), said second supply duct (8) defining a second longitudinal axis (L') substantially parallel to said first longitudinal axis (L), said second supply duct (8) comprising a misting nozzle (9) to generate a jet of finely dispersed droplets;
- a first diverting valve (10) having an inlet (11) fluidly connected to the inlet (3) of said handle (2) and a first and a second outlet (12, 13) connected respectively to said first and said second duct (18, 8);
- first selecting means (14) acting upon said first diverting valve (10) to convey the pressurized fluid selectively and alternatively towards said first outlet (12) or to said second outlet (13);
- at least one third duct (5) coaxial with said at least one first supply duct (18) and inside thereto; said third supply duct (5) comprising a second spraying nozzle (21') with high flow range;
- second selecting means (19) placed downstream with respect to said first diverting valve (10) movable between a first operating position wherein said first outlet (12) of said first diverting valve (10) is in fluid communication with said first supply duct (18) and a second operating position wherein said first outlet (12) of said first diverting valve (10) is in fluid communication with said third supply duct (5);
- a tubular slider (40) configured in such a way so as to intercept the jet flowing from said first duct (18) to modify the width thereof;
wherein said tubular slider (40) is substantially coaxial with said at least one first duct (18) and sliding thereon between a first working position wherein the jet flowing from said first spraying nozzle (24’) has maximum width and minimum flow range, and a second working position wherein the jet flowing from said first spraying nozzle (24’) has a minimum width and maximum flow range;
wherein said tubular slider (40) has a predetermined length and inner diameter so as to not intercept the jet flowing from said third duct (5) nor in said first working position nor in said second working position to allow the jet thereof to have a maximum flow range;
wherein said first selecting means (14), second selecting means (19) and said tubular slider (40) are configured so as to be controllable by a user with a hand during the functioning of the lance (1), the latter having a maximum length (LUmax) and a weight such as to allow an operator to move the lance with the other hand.
2. Lance according to embodiment 1, wherein said first spraying nozzle (24') encompasses said second spraying nozzle (21'), said first spraying nozzle (24') comprising a plurality of axial holes (26) transversely misaligned with respect to said first longitudinal axis (L) and in fluid communication with said single central hole (23) so as when said second selecting means (19) are in said first working position the flow of fluid passes exclusively through said third duct (5) to minimize the turbulence of the fluid and to spray a jet with reduced dispersion, and so as when said second selecting means (19) are in said second working position the flow of fluid passes exclusively through said first duct (18) to increase the turbulence of the pressurized fluid and to spray a jet with a relatively high dispersion.
3. Lance according to embodiment 2, wherein said first selecting means (14) comprise a slider (16) screwable on a threaded seat (15) of said first diverting valve (10) to selectively obstruct said outlet sections (12,13).
4. Lance according to embodiment 1, 2 or 3, wherein said second selecting means (19) include a controlling lever (20) rotatable between said first and second working position, said controlling lever (20) being connected to a second diverting valve (19') so as the rotation of the former corresponds to the rotation of the latter to alternatively and selectively convey the fluid flowing from the first outlet (12) of said first diverting valve (10) towards said first supply duct (18) or towards said third supply duct (5).
5. Lance according to any one of the preceding embodiments, comprising an outlet end member (21) placed in correspondence to the free longitudinal end (22) of said third supply duct (5) and provided with said single central hole (23) placed along said first longitudinal axis (L).
6. Lance according to any one of the preceding embodiments, wherein said first spraying nozzle (24') further comprises an annular element (24) placed in correspondence to the terminal end (25) of said first supply duct (18) and peripherally provided with said axial holes (26).
7. Lance according to any one of the preceding embodiments, wherein said misting nozzle (9) has a wall (27) converging towards an outlet (28) substantially aligned with said second longitudinal axis (L'), said misting nozzle (9) further comprising a dispersion element (29) of the fluid placed upstream with respect to said outlet (28), said dispersion element (29) having a longitudinal channel (30) substantially aligned with said outlet (28) and a curved wall (31) faced towards said converging wall (27) and provided with a plurality of radial slots (32) to allow the displacement of a fraction of fluid in the radial direction and to increase the turbulence and the misting of the jet of fluid.
8. Lance according to embodiment 7, wherein said radial slots (32) of said dispersion element (29) are angularly spaced there between by a predetermined angle of 15° to 30°.
9. lance according to any one of the preceding embodiments, having a maximum length (LUmax) lower than 70 cm, and more preferably lower than 65 cm.
10. Lance according to any one of the preceding embodiments, having a total weight lower than 3 kg, preferably lower than 2,6 kg, and even more preferably of 2,2 kg to 2,6 kg, so as the operator may move the lance with one hand.
In the light of the aforementioned, it is understood that the invention fulfils the intended objects.
The fire-fighting lance according to the invention is susceptible of numerous modifications and variations, all falling within the inventive concept expressed in the appended claims. All the details may be replaced with other technically equivalent elements, and the materials may be different according to requirements, without departing from the scope of the invention.

Claims (6)

ConclusiesConclusions 1/61/6 1. Een brandbestrijdingslans omvattende:A fire fighting lance comprising: - een handgreep (2) met een inlaat (3) voor een fluïdum onder druk;- a handle (2) with an inlet (3) for a pressurized fluid; - ten minste één eerste toevoerkanaal (18) welke een eerste lengteas (L) definieert, genoemd eerste toevoerkanaal (18) omvattende een eerste spuitmondstuk (24);- at least one first supply channel (18) defining a first longitudinal axis (L), said first supply channel (18) comprising a first spray nozzle (24); - een tweede toevoerkanaal (8) gesuperponeerd op genoemd eerste toevoerkanaal (18), waarbij genoemd tweede toevoerkanaal (8) een tweede lengteas (L') in hoofdzaak parallel aan genoemde eerste lengteas (L) definieert, genoemd tweede toevoerkanaal (8) omvattende een verstuivingsmondstuk (9) voor het genereren van een straal van fijn gedispergeerde druppeltjes;- a second feed channel (8) superimposed on said first feed channel (18), wherein said second feed channel (8) defines a second longitudinal axis (L ') substantially parallel to said first longitudinal axis (L), said second feed channel (8) comprising a atomizing nozzle (9) for generating a jet of finely dispersed droplets; - een eerste omschakelklep (10) met een inlaat (11) in fluïdumverbinding met de inlaat (3) van genoemde handgreep (2) en een eerste en een tweede uitlaat (12,13) respectievelijk verbonden met het eerste en het tweede kanaal (18, 8);- a first switching valve (10) with an inlet (11) in fluid communication with the inlet (3) of said handle (2) and a first and a second outlet (12, 13) connected to the first and the second channel (18, respectively) , 8); - eerste selectiemiddelen (14) inwerkende op de eerste omschakelklep (10) voor het selectief en afwisselend transporteren van het fluïdum onder druk naar genoemde eerste uitlaat (12) of naar genoemde tweede uitlaat (13);- first selection means (14) acting on the first switch valve (10) for selectively and alternately transporting the fluid under pressure to said first outlet (12) or to said second outlet (13); - ten minste een derde kanaal (5) coaxiaal met genoemd ten minste één eerste toevoerkanaal (18) en aan de binnenzijde daarvan; genoemd derde toevoerkanaal (5) omvattende een tweede spuitmondstuk (21') met hoog debietbereik;- at least a third channel (5) coaxial with said at least one first supply channel (18) and on the inside thereof; said third supply channel (5) comprising a second spray nozzle (21 ') with a high flow range; - tweede selectiemiddelen (19) gerangschikt stroomafwaarts ten opzichte van genoemde eerste omschakelklep (10) beweegbaar tussen een eerste bedrijfspositie, waarbij genoemde eerste uitlaat (12) van genoemde eerste omschakelklep (10) in fluïdumverbinding met genoemd eerste toevoerkanaal (18) is en een tweede bedrijfspositie waarbij genoemde eerste uitlaat (12) van genoemde eerste omschakelklep (10) in fluïdumverbinding met genoemd derde toevoerkanaal (5) is;- second selection means (19) arranged downstream of said first switching valve (10) movable between a first operating position, said first outlet (12) of said first switching valve (10) being in fluid communication with said first supply channel (18) and a second operating position wherein said first outlet (12) of said first switch valve (10) is in fluid communication with said third supply channel (5); - een buisvormige schuif (40) zodanig geconfigureerd om de straal die uit genoemd eerste kanaal (18) stroomt te onderscheppen om de breedte ervan te wijzigen;- a tubular slider (40) configured to intercept the radius flowing from said first channel (18) to change its width; waarbij genoemde buisvormige schuif (40) met genoemde ten minste één eerste kanaal (18) in hoofdzaak coaxiaal is en daarop glijdend is tussen een eerste bedrijfspositie waarin de straal die uit genoemd eerste spuitmondstuk (24’) stroomt een maximale breedte en minimaal debietbereik heeft, en een tweede bedrijfspositie waarbij de straal die uit genoemd eerste spuitmondstuk (24’) stroomt een minimale breedte en maximum debietbereik heeft;said tubular slider (40) with said at least one first channel (18) being substantially coaxial and sliding thereon between a first operating position in which the jet flowing out of said first spray nozzle (24 ') has a maximum width and minimum flow range, and a second operating position wherein the jet flowing from said first spray nozzle (24 ') has a minimum width and maximum flow range; waarbij genoemde buisvormige schuif (40) een vooraf bepaalde lengte en binnendiameter heeft teneinde de straal die uit genoemd derde kanaal (5) stroomt niet te onderscheppen, noch in de eerste bedrijfspositie noch in de tweede bedrijfspositie, voor het toestaan dat de straal daarvan een maximaal debietbereik heeft;said tubular slider (40) having a predetermined length and inner diameter so as not to intercept the radius flowing out of said third channel (5), neither in the first operating position nor in the second operating position, allowing the radius thereof to reach a maximum has flow rate range; waarbij genoemd eerste selectiemiddelen (14), tweede selectiemiddelen (19) en genoemde buisvormige schuif (40) zodanig geconfigureerd zijn teneinde door een gebruiker met een hand bestuurbaar te zijn tijdens de werking van de lans (1), waarbij deze laatste een maximum lengte (Lumax) en een gewicht heeft zodanige dat een bediener de lans met de andere hand kan bewegen.wherein said first selection means (14), second selection means (19) and said tubular slider (40) are configured to be controllable by a user with one hand during the operation of the lance (1), the latter having a maximum length ( Lumax) and has a weight such that an operator can move the lance with the other hand. 2. Lans volgens conclusie 1, waarbij genoemd eerste spuitmondstuk (24') genoemd tweede spuitmondstuk (21') omgeeft, genoemd eerste spuitmondstuk (24') omvattende een veelvoud aan axiale gaten (26) in dwarsrichting niet op gelijke lijn ten opzichte van genoemde eerste lengteas (L) gerangschikt en in fluïdumverbinding met genoemd enkele centrale gat (23) zodat wanneer de tweede selectiemiddelen (19) in genoemde eerste bedrijfspositie zijn, het debiet van fluïdum uitsluitend door genoemd derde kanaal (5) stroomt voor het minimaliseren van de turbulentie van het fluïdum en het sproeien van een straal met verminderde dispersie, en zodat wanneer genoemde tweede selectiemiddelen (19) in genoemde tweede bedrijfspositie zijn het debiet van fluïdum uitsluitend door genoemd eerste kanaal (18) stroomt voor het verhogen van de turbulentie van het fluïdum onder druk en het sproeien van een straal met een relatief hoge dispersie.A lance according to claim 1, wherein said first spray nozzle (24 ') surrounds said second spray nozzle (21'), said first spray nozzle (24 ') comprising a plurality of axial holes (26) not transversely aligned with respect to said first longitudinal axis (L) arranged and in fluid communication with said single central hole (23) so that when the second selection means (19) are in said first operating position, the flow of fluid flows exclusively through said third channel (5) to minimize turbulence of the fluid and spraying a jet with reduced dispersion, and so that when said second selection means (19) are in said second operating position, the flow rate of fluid flows exclusively through said first channel (18) to increase the turbulence of the fluid below pressure and spraying a jet with a relatively high dispersion. 3/6 3/6 3. Lans volgens conclusie 2, waarbij genoemde eerste selectiemiddelen (14) een schuif (16) omvatten, schroefbaar op een van schroefdraad voorziene zitting (15) van genoemde eerste omschakelklep (10), voor het selectief blokkeren van genoemde uitlaatdelen (12,13).Lance according to claim 2, wherein said first selection means (14) comprise a slider (16), screwable on a threaded seat (15) of said first switching valve (10), for selectively blocking said outlet parts (12, 13) ). 4/64/6 FIG. 3bFIG. 3b 4. Lans volgens conclusie 1, 2, of 3, waarbij genoemde tweede selectiemiddelen (19) een besturingshefboom (20) omvatten, roteerbaar tussen genoemde eerste en tweede bedrijfspositie, welk genoemde besturingshefboom (20) verbonden is met een tweede verdeelafsluiter (19') zodat de rotatie van de eerste met de rotatie van de laatste overeenkomt voor het afwisselend en selectief transporteren van het fluïdum stromend van de eerste uitlaat (12) van genoemde eerste omschakelklep (10) naar genoemd eerste toevoerkanaal (18) of naar genoemd derde toevoerkanaal (5).Lance according to claim 1, 2 or 3, wherein said second selection means (19) comprise a control lever (20) rotatable between said first and second operating position, said control lever (20) being connected to a second distribution valve (19 ') so that the rotation of the first corresponds to the rotation of the latter for alternately and selectively transporting the fluid flowing from the first outlet (12) of said first switching valve (10) to said first supply channel (18) or to said third supply channel ( 5). 5/65/6 FIG. 4bFIG. 4b 5 10. Lans volgens één der voorgaande conclusies, met een totaal gewicht van minder dan 3 kg, bij voorkeur minder dan 2,6 kg, en bij nog meer voorkeur van 2,2 kg - 2,6 kg, zodat de bediener de lans met één hand kan bewegen.10. Lance as claimed in any of the foregoing claims, with a total weight of less than 3 kg, preferably less than 2.6 kg, and even more preferably from 2.2 kg - 2.6 kg, so that the operator lifts the lance can move with one hand. 5. Lans volgens één der voorgaande conclusies, omvattende een uitlaatuiteinde-element (21) dat in overeenstemming met het vrije longitudinale uiteinde (22) van genoemd derde toevoerkanaal (5) gerangschikt is en voorzien is van genoemd enkele centrale gat (23) gerangschikt langs genoemde eerste lengteas (L).Lance according to any one of the preceding claims, comprising an outlet end element (21) arranged in accordance with the free longitudinal end (22) of said third supply channel (5) and provided with said single central hole (23) arranged along said first longitudinal axis (L). 6. Lans volgens één der voorgaande conclusies, waarbij genoemd eerste spuitmondstuk (24') voorts een ringvormig element (24) omvat, dat in overeenstemming met het uiteinde (25) van genoemd eerste toevoerkanaal (18) gerangschikt is en aan de omtrek voorzien is van genoemde axiale gaten (26).Lance as claimed in any of the foregoing claims, wherein said first spray nozzle (24 ') further comprises an annular element (24) which is arranged in accordance with the end (25) of said first supply channel (18) and is provided on the circumference of said axial holes (26). 7. Lans volgens één der voorgaande conclusies, waarbij genoemd verstuivingsmondstuk (9) een wand (27) heeft die convergeert naar een uitlaat (28) in hoofdzaak uitgelijnd met genoemde tweede lengteas (L1), welk genoemd verstuivingsmondstuk (9) verder een dispersie-element (29) van het fluïdum omvat, gerangschikt stroomopwaarts ten opzichte van genoemde uitlaat (28), welk genoemd dispersie-element (29) een longitudinaal kanaal (30) in hoofdzaak uitgelijnd met genoemde uitlaat (28) en een gebogen wand (31) gericht naar genoemde convergerende wand (27) heeft en voorzien is van een veelvoud aan radiale sleuven (32) om de verplaatsing van een fractie van het fluïdum in radiale richting mogelijk te maken en de turbulentie en het verstuiven van de fluïdumstraal te verhogen.A lance according to any one of the preceding claims, wherein said spray nozzle (9) has a wall (27) that converges to an outlet (28) substantially aligned with said second longitudinal axis (L 1 ), said spray nozzle (9) further dispersing fluid element (29) arranged upstream of said outlet (28), said dispersion element (29) having a longitudinal channel (30) substantially aligned with said outlet (28) and a curved wall (31) ) is directed towards said converging wall (27) and is provided with a plurality of radial slots (32) to allow the displacement of a fraction of the fluid in the radial direction and to increase the turbulence and atomization of the fluid jet. 8. Lans volgens conclusie 7, waarbij genoemde radiale sleuven (32) van genoemd dispersie-element (29) op een onderlinge hoek-afstand van elkaar met en vooraf bepaalde hoek van 15 °-30 ° gerangschikt zijn.Lance according to claim 7, wherein said radial slots (32) of said dispersion element (29) are arranged at a mutual angular distance from each other with a predetermined angle of 15 ° -30 °. 9. Lans volgens één der voorgaande conclusies, met een maximale lengte (LUMAX) minder dan 70 cm, en met meer voorkeur minder dan 65 cm.Lance according to any one of the preceding claims, with a maximum length (LUMAX) less than 70 cm, and more preferably less than 65 cm. 6/66/6
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US2389642A (en) * 1944-06-07 1945-11-27 Wooster Brass Company Four-way nozzle
US2567176A (en) * 1948-03-31 1951-09-11 Edward D Ballard Fire fighting nozzle
US3363842A (en) * 1965-10-05 1968-01-16 Robert L. Burns Fire hose nozzle
DE3214180A1 (en) * 1982-04-17 1983-10-20 Wolfgang 4800 Bielefeld Suttner Attachment for a spray gun
FR2741540B1 (en) 1995-11-23 1998-01-30 Sicli FIRE EXTINGUISHING HOSE, DOUBLE BROADCASTING HEAD
DE29800929U1 (en) * 1998-01-21 1998-04-02 Schmid Bernd Heavy foam pipe
ITVI20060350A1 (en) * 2006-12-07 2008-06-08 Cristanini Spa LAUNCHES A JET, PARTICULARLY FOR DECONTAMINATING / DETOUSING PRODUCTS
FR2930167B1 (en) 2008-04-17 2010-05-07 Inst Francais Du Petrole PORTABLE FIRE EXTINGUISHING DEVICE
CN102526917A (en) * 2010-12-30 2012-07-04 上海靓消消防装备有限公司 Multi-functional water mist spray gun
CN201939919U (en) 2011-01-20 2011-08-24 陕西银河消防科技装备有限公司 Water-mist spray gun for fire fighting

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