Lance, in particular fire fighting lance

专利摘要:
The invention relates to a lance (1), in particular for the joint delivery of a pressurized fluid and an additive (2) for penetrating walls. The lance (1) comprises a lance body (3), a handle arrangement (4), several channels (7, 15, 26) and actuating means arrangements (11, 29) interacting with these, a nozzle arrangement (18) and at least one container ( 13) for the additive (2). In the first channel (7) the fluid, in the second channel (15) the additive (2) and in the third channel (26) the ambient air is selectively directed by the actuating means arrangements (11, 29) to a first nozzle body (19) . The third channel (26) forms a line connection between the ambient air and a mixing chamber (24) of the first nozzle body (19). The second adjusting means arrangement (29) with its second adjusting means (30) acts directly on the third channel (26) and indirectly controls the admixing of the additive (2) via the second channel (15) into the mixing chamber (24).
公开号:AT522886A4
申请号:T51022/2019
申请日:2019-11-25
公开日:2021-03-15
发明作者:Altmüller Dipl Ing Martin；Kiesenhofer Ing Florian；Lesterl Gerhard；Weber Dipl Ing Roland (Fh)
申请人:Rosenbauer Int Ag；
IPC主号:

专利说明:

Pressurized fluid can be delivered.
DE 20 2017 102 091 U1 has disclosed a lance for extinguishing a fire in a room that is closed by at least one closing element. The lance comprises at least one first handle that can be gripped by an operator and at least one first channel with a first inlet and a first outlet, which can be fluidically connected to a first supply line of a pressurized fluid. The lance further includes a first control lever that acts on the at least one first channel to enable an operator to control the selective flow of pressurized fluid therethrough. At least one second channel is provided with a second inlet and a second outlet, which can be fluidically connected to a second supply line for a grinding powder. A second control lever acts on the at least one second channel to enable an operator to control the selective flow of abrasive therethrough. A first nozzle has a pair of first inlet openings which are each fluidically connected to the first outlet and the second outlet. A venturi effect mixing means serves to mix the pressurized fluid and the abrasive powder with selective activation of the flow thereof through the second channel. A first outlet port is provided for spraying a concentrated jet of the mixture of the pressurized fluid and the abrasive powder. The at least one first handle includes the first and second control levers, the control levers being close
are placed next to each other to enable the operator to select the first
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to be able to operate.
The object of the present invention was to overcome the disadvantages of the prior art and to provide a lance which of a
User can be operated easily and safely in order to be able to control the optional delivery of the additive with just one hand and this independently of the
Operation of the delivery of the fluid. This object is achieved by a lance according to the claims.
The lance according to the invention is preferably used to extinguish a fire in the fire service, whereby an access opening must first be made through a solid body, such as a wall, a wall part, a body part, a battery or the like, in order to allow the pressurized fluid, mostly water, to be able to use or bring in for fire fighting in the space behind the solid body. To produce the at least one access opening, an additive, in particular solid granules or another cutting agent, is added or mixed in with the pressurized fluid and this mixture is applied together to that point by means of the lance.
brought, at which the access opening is to be made.
The lance can also be referred to as and includes a quenching lance and / or cutting lance
- a lance body,
A handle arrangement, which handle arrangement is arranged or formed on the lance body and comprises a first handle and a second handle, the two handles being arranged at a distance from one another in the direction of the longitudinal extension of the lance body and with each handle each from one
Hand of a user for operating the lance can be captured,
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- A first actuating means arrangement, which first actuating means arrangement is arranged in the area of the first handle of the handle arrangement and a first actuating means is directly in operative connection with the first channel, the first actuating means being adjustable from a blocking position to a flow position and vice versa so that the flow of the pressurized fluid through the first channel can be adjusted,
- At least one container with at least one removal opening, wherein the first additive can be received in the first container,
- At least one second channel with a second channel inlet and a second channel outlet, wherein the second channel inlet is in flow connection with the at least one extraction opening of the first container,
a second actuating means arrangement, which second actuating means arrangement comprises at least one second actuating means, the second actuating means being adjustable from a closed position to a release position and vice versa and thus the flow of the first additive through the second channel being adjustable,
- A nozzle arrangement with a first nozzle body, wherein at least a first inlet opening, a second inlet opening, at least one outlet opening and a mixing chamber are formed or arranged in the first nozzle body, and wherein the inlet openings open into the mixing chamber and the mixing chamber is in flow connection with the at least one outlet opening stands,
- wherein the first channel outlet of the first channel is in flow connection with the at least one first inlet opening of the first nozzle body, and
- wherein the second channel outlet of the second channel is in flow connection with the second inlet opening of the first nozzle body, wherein further
is provided,
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- That the third channel outlet of the third channel is directly in flow connection with the at least one first inlet opening of the first nozzle body,
- that the second actuating means of the second actuating means arrangement is directly in operative connection with the third channel and the second actuating means arrangement is arranged in the area of the second handle,
- That the third channel is continuously open between its third channel inlet and its third channel outlet when the second adjusting means is in the release position, thus enabling ambient air to flow through the third channel to the mixing chamber, and
- That the third channel between its third channel inlet and its third channel outlet is closed when the second adjusting means is in the closed position and thus a flow of ambient air through the
third channel through to the mixing chamber is blocked.
The advantage achieved in this way is that with a simple adjustment movement of the second actuating means of the second actuating means arrangement, the flow through and suction of ambient air into the mixing chamber of the first nozzle body is selectively controlled and consequently the admixing of the first additive to the pressurized one Fluid is enabled or prevented. The flow or the suction of the first additive through the second channel starting from the first container into the mixing chamber is determined by the opening or closing of the separate and independent third channel in the area of the second actuator arrangement. The first handle of the lance is held with one hand and the first actuating means arrangement is also operated with the same hand. This also prevents unintentional operating errors, since the two actuating means arrangements are arranged at a distance from one another in the direction of the longitudinal extension of the lance. The second actuating means arrangement
The distance from the first grip with the other hand is easy
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medium arrangements achieved.
Furthermore, it can be advantageous if the at least one first channel and the at least one third channel are arranged or formed in the lance body.
A compact design of the lance body can thus be achieved.
Another embodiment is characterized in that the second channel is formed by its own connecting line and the connecting line is arranged to run outside the lance body or inside the lance body. By providing a separate connecting line, which is arranged to run outside the lance body, the possibility can thus be created of a simple exchange of the first container and / or the first
th nozzle body to be able to make.
Another possible embodiment has the features that the second adjusting means arrangement comprises a control pin, which control pin is mounted on the lance body so that it can pivot about its longitudinal axis. By providing a separate, essentially cylindrical control pin, the different-
th control positions of the individual actuating means can be realized.
A further embodiment provides that the second adjusting means of the second adjusting means arrangement is formed by an opening penetrating the control pin in the radial direction, in particular by at least one bore. By combining the control pin with the opening and its coordinated arrangement, a robust and long-lasting actuating and / or control device can be achieved.
direction to be created.
Another embodiment is characterized in that the second adjusting means arrangement further comprises a third adjusting means and the third adjusting means is directly in operative connection with the second channel, the third adjusting means from
a closed position is adjustable to a release position and vice versa
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and vice versa.
Another preferred embodiment is characterized in that the third channel is closed when the second adjusting means is in the closed position and the third adjusting means is in its release position and the second channel is continuously open, or that the third channel is in the release position second adjusting means is continuously open and the third adjusting means is in its closed position and the second channel is closed. A secure locking or closed position of the second channel can thus be achieved when the second adjusting means is in the release position. In this way, an unintentional removal of the first additive from the can even if the third channel is unintentionally laid
first container can be safely prevented.
Furthermore, it can be advantageous if the second adjusting means and the third adjusting means of the second adjusting means arrangement are arranged at a distance from one another in the axial direction and offset from one another as seen in the circumferential direction. Thus, depending on the extensive displacement, the extent of the adjustment movement and the
associated change of the operating mode of the lance can be achieved.
Another embodiment is characterized in that a second nozzle body is provided, which second nozzle body is arranged upstream of the first nozzle body in the flow direction of the pressurized fluid and the first channel outlet of the first channel is arranged or formed in the second nozzle body. By providing a second nozzle body, an even more individual delivery option of the fluid from the lance can be made possible.
the.
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formation of the third channel.
Furthermore, it can be advantageous if the first nozzle body of the nozzle arrangement is held removably on the lance body, in particular removably on the second nozzle body. This creates a simple possibility of exchanging the first nozzle body. For example, a damaged or worn first nozzle body can simply be exchanged for a new first nozzle body, which significantly increases the service life of the entire lance
can be.
Another embodiment is characterized in that the first channel comprises a first partial channel and a second partial channel in its longitudinal section between the second adjusting means arrangement and the first channel outlet and the first partial channel is arranged within the second partial channel. By subdividing the first channel following the second actuating means arrangement, an even more universal use of the lance and, associated therewith, the delivery of different jet shapes can be made possible. So not only a full jet, but also a spray jet depending on the passage of the pressurized jet
Fluids are made possible through the respective sub-channel.
Another possible embodiment has the features that the first partial channel ends in the axial direction in front of the first channel outlet and opens into the second partial channel surrounding the first partial channel and furthermore at least one end section of the first partial channel is arranged in alignment with the first channel outlet with respect to the first channel outlet. A straight and central delivery direction of the pressurized fluid from the first sub-channel through the first channel outlet and on to the first nozzle body can thus be created
will.
Another alternative embodiment is characterized in that the
second actuating means arrangement furthermore an actuating means group with at least one
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Actuating agent group are in direct operative connection with the first channel. By providing a separate group of actuating means with several actuating elements, the forwarding of the fluid into the respective subsequent sub-channel can also be carried out.
Selectively preselected and optionally set.
Another possible and possibly alternative embodiment has the features that the actuating elements of the actuating means group are each formed by a penetration penetrating the control pin in the radial direction, in particular by at least one bore in each case. This also allows a compact and failure-prone setting device for controlling the fluid flow.
set to be created.
Another embodiment provides that the actuators of the actuating means group are spaced apart from one another in the axial direction and circumferentially offset from one another by an offset angle when viewed in the circumferential direction and optionally only one of the actuators allows the flow of the pressurized fluid. This allows a safe separation of the supply of the fluid in
the respective sub-channel can be ensured.
Another embodiment provides that the first actuator of the actuator group is in direct operative connection with the first sub-channel and the second actuator of the actuator group is in direct operative connection with the second sub-channel. This means that the respective control element can be clearly assigned
the associated sub-channel is ensured.
Another alternative embodiment is characterized in that when the second adjusting means is in the closed position, the third channel is closed and, at the same time, the flow connection between the first channel and the first sub-channel is established by means of the at least one first adjusting element and, furthermore, by means of the second adjusting element Flow connection between the first channel and the second sub-channel is interrupted. By
the respective control position of the second actuating means in relation to the actuating elements
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can be achieved together with the first additive to be dispensed.
Furthermore, it can be advantageous if, when the second adjusting means is in the release position, the third channel is continuously open and, at the same time, the flow connection between the first channel and the first sub-channel is established by means of the at least one first adjusting element and, furthermore, the flow connection between the second adjusting element the first channel and the second sub-channel is interrupted. This specified control position enables the delivery of a full jet of the fluid, however, without the addition or admixture of the first additive. If a further container with a further additive is also provided and the further container is in flow connection with the third channel via the second adjusting means, the additive stored there can be sucked in at the same time from both the first container and the second container. The discharge of the pressurized fluid from the lance takes place with this loading
drive state also with a full jet.
It can also be advantageous if, with the first nozzle body removed and the second adjusting means in the closed position, the third channel is closed and at the same time the flow connection between the first channel and the first sub-channel is interrupted by means of the at least one first adjusting element and further by means of the second Actuator, the flow connection is formed between the first channel and the second sub-channel. By previously removing or detaching the first nozzle body and the control position selected for this purpose, a spray jet is emitted
made possible from the lance.
Furthermore, it can be advantageous if the second handle of the handle arrangement is coupled non-rotatably to the control pin of the second actuating means arrangement, in particular the second handle and the control pin are designed in one piece. In order to
you can simply switch over without reaching around and letting go of the second handle.
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processing can be carried out on the respectively desired operating state of the lance. This can be done with just one and the same hand, which one
grasped the second handle.
Furthermore, it can be advantageous if a further container is provided for a further additive to be accommodated therein and the further container is in flow connection via a fourth channel with the second adjusting means arrangement and further with the third channel. In that operating position of the second actuating means arrangement in which a full jet is emitted with the first additive attached, the possibility is created not to suck the ambient air directly into the third channel, but indirectly via the further container. A separate container opening is to be provided for sucking in the further additive in order to allow the inflow and suction of ambient
to allow air into the interior of the container.
Another alternative embodiment is characterized in that at least one of the containers is removably held on the lance body. This means that a simple and quick refill or exchange of the container or the loading
container can be carried out during operation.
Another possible alternative embodiment is characterized in that a pivoting arrangement is provided, by means of which pivoting arrangement at least the first container is held on the lance body in a pivotable manner. In this way, the container or the respective containers can be aligned relative to the lance body in such a way that the suction point is always
is in the position closest to the ground.
Another possible and possibly alternative embodiment has the
Features that at least one container opening is provided which at least one container opening opens into a container interior of the container. This enables ambient air to flow into the interior of the container. Otherwise there would be an under-
build up pressure due to the suction applied to the additive.
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Finally, a further embodiment provides that the container interior is in flow connection with the external environment via the container opening and at least one filter element is arranged in the container opening. In this way, depending on the choice and design of the filter element, there can be an unintentional influx of dirt, dust particles and the previously released additive
and / or reduced or completely prevented by humidity.
A possible alternative embodiment is characterized in that at least the further container is provided and the second actuating means arrangement further comprises the third actuating means, the third actuating means and the first actuating member of the actuating means group being in a first operating position of the second actuating means arrangement are each in their release position and the second actuating means is in its closed position and the third channel is closed, and in a second operating position of the second actuating means arrangement, the first actuating member of the actuating means group and the second actuating means are each in their release position and the third adjusting means is in its closed position and the second channel is closed. With this design and arrangement of the actuating means and the actuating elements of the second actuating means arrangement and the respectively selected operating position, a switching process for the admixture or trimmings can be carried out quickly and in a user-friendly manner.
the additive required in each case.
Furthermore, it can be advantageous if the additive is selected from the group of solid granules, abrasives, extinguishing powder, extinguishing additives, foaming agents, dry ice, decontamination agents. This allows a high degree of variation for the most varied of purposes and conditions of use
be created.
For a better understanding of the invention, it will be based on the following
Figures explained in more detail. They each show in a greatly simplified, schematic representation:
1 shows a possible design of a lance, in a diagrammatic representation;
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Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
10
11
12th
12th
the lance according to FIG. 1 in the operating state full jet with a first
Additive, in longitudinal section;
the lance according to Fig. 1 in the operating state full jet without first additional
medium, in longitudinal section;
the lance according to Fig. 1 in the spray jet operating state and when the
taken first nozzle body, in longitudinal section;
the first nozzle body of the lance, in axial section and enlarged
Presentation;
the control pin of the lance according to its operating position in Fig.
2, in a view in the direction of the flow direction;
the control pin of the lance according to its operating position in Fig.
3, in a view in the direction of the flow direction;
the control pin of the lance according to its operating position in Fig.
4, in a view in the direction of the flow direction;
a possible variant of the lance in which the second line for the first additive is also provided by a third adjusting means
is controlled, in longitudinal section;
an alternative embodiment of the lance, in which a further additive from a further container via the third channel
can be added to the fluid, in longitudinal section;
a further possible design of the second adjusting means arrangement for the optional delivery of the first additive from the first container or the second additive from the second container, in the first
th operating position, in longitudinal section;
the second adjusting means arrangement according to FIG. 11, but in its second
Operating position, in longitudinal section.
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By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference symbols or the same component names, whereby the disclosures contained in the entire description can be transferred accordingly to the same parts with the same reference symbols or the same component names. The position details chosen in the description, such as above, below, to the side, etc., also relate to the figure immediately described and shown and are these position-
to transfer information correspondingly to the new location in the event of a change in location.
The term “in particular” is understood in the following to mean that it can be a possible more specific design or more detailed specification of an object or a process step, but not necessarily a mandatory, preferred embodiment of the same or a mandatory requirement.
must represent.
In the following description and in the claims, the term is used directly or indirectly for the action of the adjusting means or the adjusting means group on the respective channel. The term is to be understood directly in such a way that the respective actuating means or one of the actuating elements of the actuating means group itself physically acts on the channel connected to it and enables or prevents the flow of the respective medium. The term indirect is to be interpreted in such a way that the respective adjusting means or one of the adjusting elements of the adjusting means group is physically in operative connection with one of the channels and enables or closes the flow of the respective medium in the respective channel, but depending on the operating position in another of the channels the throughflow or throughflow of another medium likewise enables or prevents
becomes.
1 to 12 each show a lance 1 or its individual components, which can also be referred to as a quenching lance. Such lances 1 are used, for example, in fire brigades to fight fires in which access to the source of the fire is initially not possible because the room is closed off by walls.
sen or is enclosed. To gain access to the room in which the
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To obtain the source of the fire, at least one access opening must be made through the wall. Depending on the material or material composition of the wall, the formation or introduction of the access opening is associated with increased effort. In principle, a pressurized fluid, such as water, is used to fight fire or fire. It is known to mix or add at least one additive 2 to the pressurized fluid. The basic concept of the lance 1 is always the same, only different operating states and / or additional training in
the individual figures. Shown and described.
If the lance 1 is designed as a universal lance, the fluid alone and / or also a mixture, a solution, a suspension or an emulsion of the at least one first additive 2 and the fluid can be delivered together with it. This is preferably done with high to very high pressures above the ambient
ambient pressure.
The lance 1 comprises several structural components, these being listed and described below. The lance 1 thus comprises a lance body 3, which can also be formed from several lance body parts. A handle arrangement 4 is arranged on the lance body 3 for operating and holding the lance 1. The handle arrangement 4 for its part comprises a first handle 5 and a second handle 6, the two handles 5, 6 being arranged at a distance from one another in the direction of the longitudinal extension of the lance body 3. Because of this mostly usual spacing, a user of the lance 1 can grasp the first handle 5 with one hand and the second handle 6 with the other hand and thus hold and operate the lance 1 sufficiently firmly. In order to be able to apply a high pressure force or a high pressure force of the lance 1 to that point on the wall in which the access opening is to be made, a shoulder support (not specifically designated) can be attached to the lance 1, in particular its
Lance body 3 may be provided.
Furthermore, there is at least one first channel 7 with a first channel inlet 8 and a first channel outlet arranged at a distance therefrom in the direction of flow
9 provided, the first channel 7 being a flow connection between
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the first channel inlet 8 and the first channel outlet 9 is formed. The first channel inlet 8 can be connected, in particular coupled, to an indicated supply line 10. In order to control the supply of the fluid and subsequently the flow of the fluid at least through the first channel 7, a first adjusting means arrangement 11 is provided, which is arranged in the area of the first handle 5 of the handle arrangement 4. In order to enable this control and the associated blocking position or flow position of the first channel 7, the first adjusting means arrangement 11 comprises at least one first adjusting means 12.
The first adjusting means 12 is preferably mechanically adjustable from the blocking position to the flow position and vice versa, and is directly in operative connection with the first channel 7. Depending on the preselected position of the first adjusting means 12, the flow of the pressurized fluid through the first is
Channel 7 adjustable.
At least one first container 13 is provided for receiving the first additive 2 and its direct, immediately adjacent arrangement to the lance body 3. The container 13 can be removed from the lance body 3 if necessary.
hold and has at least one removal opening 14.
In order to create a line connection for the transport of the first additive 2, at least one second channel 15 with a second channel inlet 16 and a second channel outlet 17 is provided. The second channel inlet 16 is standing
with the removal opening 14 of the first container 13 in flow connection.
At the end of the lance 1 facing away from the first handle 5, a nozzle arrangement 18 with a first nozzle body 19 is arranged, which is used to dispense the fluid or the mixture of the fluid and the first additive 2. The nozzle arrangement 18 can also comprise a second nozzle body 20, this being arranged upstream of the first nozzle body 19 in the direction of flow of the pressurized fluid. If the second nozzle body 20 is provided, the first channel outlet 9 of the first channel 7 can be arranged or formed in the second nozzle body 20. Furthermore, it can be advantageous if the first nozzle body 19 of the nozzle arrangement 18 can be removed from the lance body
3, in particular detachably on the second nozzle body 20. In this
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Case is the second channel 15 between its second channel inlet 16 and his
to train second channel outlet 17 separable or interruptible.
The first nozzle body 19 has at least a first inlet opening 21, a second inlet opening 22, at least one outlet opening 23 and a mixing chamber 24. Subsequent to the inlet openings 21, 22, an inlet channel is formed in each case, within which the respective medium is passed. The inlet openings 21, 22 for their part open into the mixing chamber 24, the mixing chamber 24 being in flow connection with the at least one outlet opening 23. The first inlet opening 21 defines with the second inlet opening 22 a longitudinal axis 25, which has a parallel alignment with respect to the longitudinal extent of the lance body 3. The longitudinal axis 25 also defines the basic direction of radiation of the fluid to be dispensed or of the mixture of the fluid and the additive 2. The first inlet opening 21 preferably has an orientation oriented in the direction of the longitudinal axis 25 and is thus directed towards the lance body 3. For this purpose, the second inlet opening 22 has an angled arrangement, which can preferably be a normal orientation with respect to the longitudinal axis 25. An acute angle can also be set between the second inlet opening 22 and the longitudinal axis 25.
be closed.
Furthermore, the first channel outlet 9 of the first channel 7 is in flow connection with the at least one first inlet opening 21 of the first nozzle body 19. The second channel outlet 17 of the second channel 15 is in flow connection with the second inlet opening 22 of the first nozzle body 19. This means that both the fluid via the first channel 7 and the first additive 2
be fed to the mixing chamber 24 via the second channel 15.
The lance 1 further comprises in the area of the lance body 3 at least one third channel 26 with a third channel inlet 27 and a third channel outlet 28 spaced therefrom. The third channel inlet 27 is in flow connection with the external environment. This enables ambient air to flow into or be sucked into the third channel 26. Of the
the third channel outlet 28 for its part also stands with the first inlet opening 21
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of the first nozzle body 19 in flow connection. This can be done because the first inlet opening 21 has a larger inlet cross section. However, it would also be possible to subdivide the first inlet opening 21 into at least two partial openings. Then, for example, the first channel 7 could be in the first partial opening and
the third channel 26 open into the second partial opening.
For the optional control of the passage through the third channel 26, a second adjusting means arrangement 29 is provided, which comprises at least one second adjusting means 30. The second adjusting means 30 can in turn be adjusted from a closed position to a release position and vice versa. The flow through the first additive 2 through the second channel 15 can thus be adjusted. The second adjusting means 30 interacts directly with the third channel 26 and indirectly controls the suction or the flow of the first additive 2 through the second channel 15. Thus, there is a direct operative connection between the second adjusting means 30 and the third channel 26. It can also be seen that the second adjusting means arrangement 29 in the area of the second
Handle 6 of the lance 1 is arranged.
If the second actuating means 30 is in its release position, the third channel 26 is continuously open and, when the fluid flows through the first channel 7, additional “external air” can enter the mixed air via the third channel 26.
chamber 24 are sucked. Sucking in the first additive 2 from the first container 13 via the second channel 15 into the mixing chamber 24 is not possible in this operating state. If, on the other hand, the second adjusting means 30 is in its closed position, the third channel 26 is closed and ambient air is prevented from flowing through. In this operating state, the first
Additive 2 from the first container 13 via the second channel 15 into the mixing
chamber 24 sucked in.
The at least one first channel 7 and the at least one third channel 26 are preferably located in the lance body 3 and are thus arranged or formed in the lance body 3. The second channel 15 can preferably be of its own
Connection line be formed. Furthermore, the connection line can be outside
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of the lance body 3, as shown in FIGS. 1 and 2. However, it would also be possible to arrange or design the connecting line forming the second channel 15 within the lance body 3. This
is indicated in Fig. 3 as a possible variant.
If the second nozzle body 20 is provided or is formed on the lance body, both the first channel 7 and the third channel 26 are
th nozzle body 20 arranged or formed.
The second adjusting means arrangement 29 located in the area of the second handle 6 can comprise a control pin 31 or be formed by this. The control pin 31 is also mounted on the lance body 3 so as to be pivotable or rotatable about its longitudinal axis. The second handle 6 of the handle arrangement 4 is preferably coupled in a rotationally fixed manner to the control pin 31 of the second actuating means arrangement 29. An integral design of the second handle 6 and the control pin 31 is also possible. The control pin 31 is rotatably received in a hollow cylindrical recess, in particular a bore, which is formed or arranged in the lance body 3. The channels 7, 15, 26 and 47 open, viewed in the direction of flow, into the hollow cylindrical recess and set
continues downstream.
The control pin 31 basically has a cylindrical basic shape, possibly with different diameters. In this exemplary embodiment, the previously described second adjusting means 30 can be formed by an opening 32 penetrating the control pin 31 in the radial direction or penetrating through the opening 32 in the normal direction with respect to the longitudinal axis of the control pin 31. The opening 32 is preferably formed by at least one bore.
det, which completely penetrates the control pin 31.
In order to form a jet configuration of the pressurized fluid that differs from one another, it can also be provided in this lance 1 that the first channel 7 is located in its longitudinal section between the second actuating means arrangement 29
and the first channel outlet 9, a first sub-channel 33 and at least one
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second sub-channel 34 comprises or is divided into these. With regard to the jet formation in the lance 1, a distinction can be made between a so-called full jet and a spray jet. The full jet represents a more circumferentially concentrated jet pattern of the fluid, the spray jet representing a significantly larger jet formation in terms of space. The cone angle is with the full jet
much less than with the spray jet.
The first partial channel 33 is here that channel which is arranged within the second partial channel 34 and through which the fluid for forming the full jet is preferably passed centrally through the lance body 3. The second partial channel 34 surrounds the first partial channel 33. The first partial channel 33 ends in the axial direction in front of the first channel outlet 9 and opens into the second partial channel 34 surrounding the first partial channel 33. In its end section, the second sub-channel 34 has a conically tapering cross-sectional shape. To form the spray jet, a deflecting body 35 can be provided in the end region or in the end section of the second partial channel 34. In this exemplary embodiment, the first sub-channel 33 passes through the deflecting body 35 preferably centrally and opens into the conically tapering second sub-channel 34. In this way, at least one end section of the first partial channel 33 is arranged in alignment with the first channel outlet 9 with respect to the first channel outlet 9. In the deflecting body 35, at least one or preferably several through-flow openings for the
rende fluid may be provided.
For the optional feeding of the two sub-channels 33, 34, the second adjusting means arrangement 29 can furthermore comprise an adjusting means group 36 with at least one first adjusting element 37 and a second adjusting element 38. As described above, the second adjusting means arrangement 29 is located in the area of the second handle 6 and preferably also in the control pin 31. The adjusting means group 36 is thus also arranged or formed in the control pin 31 and its control positions can be adjusted by rotating or pivoting the control pin 31 can be adjusted about its longitudinal axis. Furthermore, the actuators 37, 38 of the actuating means group 36 are directly in operative connection with the first channel 7 before it is divided into the sub-channels 33, 34.
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The actuating elements 37, 38 of the actuating means group 36 can each be formed by a penetration 39 penetrating the control pin 31 in the radial direction, in particular by at least one bore in each case. In order to achieve a perfect separation and supply of the two sub-channels 33, 34 immediately following the control pin 31 and its actuators 37, 38, the actuators 37, 38 are axially spaced apart and circumferentially offset from one another by an offset angle when viewed in the circumferential direction. Due to the circumferential offset of the actuators 37, 38 with respect to one another, depending on the selected control position of the control pin 31, only one of the actuators 37, 38 can allow the flow of the pressurized fluid. In this embodiment, the first actuator 37 is in direct operative connection with the first sub-channel 33, whereas the second actuator 38 is in direct operative connection with the second sub-channel 34.
The adjustment movements to be carried out circumferentially or in the circumferential direction about the longitudinal axis of the control pin 31 can be limited by stop means with interacting stop limiting elements. This one
Possibility is well known, it will not be discussed in more detail.
It has been shown to be advantageous if a mechanical safety lock is provided when the first container 13 is present on the lance body 3 in connection with or in cooperation with the second actuating means arrangement 29. For example, the mechanical safety lock can be designed in such a way that the second channel 15 interacts with a stop element 50 located on the control pin 31 - see FIGS. 4 and 10 - and the spray jet operating position with the addition of the first additive 2 is not possible. The second channel 15, which leads from the first container 13 to the first nozzle body 19 and is designed as a tube, for example, forms a stop for the stop element 50 and prevents the control pin 31 from being switched over to the one in the
Fig. 8 shown operating position. In this embodiment, a
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Protective mechanism for incorrect operation provided. In this way it can be reliably prevented that the fluid via the second channel 15 back into the first loading
container 13 can come.
6 to 8 show a possible design of the control pin 31 solely with its second adjusting means arrangement 29. The direction of view of the control pin 31 is selected so that it is based on the user of the lance 1
is directed in the direction of the longitudinal extension towards the nozzle arrangement 18.
In FIG. 6, that control position of the second actuating means arrangement 29 is shown, in which both the joint delivery of the fluid as a full jet and the first additive 2 takes place by means of the lance 1. This operating position is
can also be seen in FIG.
The second adjusting means 30 is in its closed position, as a result of which the third channel 26 is closed and no ambient air can flow through the third channel 26. At the same time, the at least one first actuator 37 is in its release position and establishes or forms the flow connection between the first channel 7 and the first sub-channel 33. Furthermore, by means of the second actuator 38, the flow connection between
the first channel 7 and the second sub-channel 34 interrupted.
In FIG. 7 that control position of the second adjusting means arrangement 29 is shown, in which the delivery of the fluid takes place as a full jet, but without admixing the first additive 2, by means of the lance 1. This operating position is
can also be seen in FIG. 3.
For this purpose, the second adjusting means 30 is in its release position, as a result of which the third channel 26 is continuously open. Simultaneously with this, the flow connection between the first channel 7 and the first sub-channel 33 is established by means of the at least one first actuator 37. Furthermore, the flow connection between the first channel 7 and the second sub-channel 34 is interrupted by means of the second actuator 38. The pivoting direction of the control
pivot 31 is based on the control position in FIG. 6 with a
22747 N2019 / 35600-AT-00
Direction of the arrow indicated above the control pin 31. This is opposite here
clockwise.
The delivery of different jet designs by means of the lance 1 can be carried out with both nozzle bodies 19, 20. But there is also the possibility of removing the first nozzle body 19 from the second nozzle body 20 and, if necessary, also to undermine the line connection of the second channel 15.
break.
8 shows the control position of the second actuating means arrangement 29, in which only the spray jet described above can be emitted
is. This operating position can also be seen in FIG.
For this purpose, the first nozzle body 19 described above is to be removed or removed from the lance body 3, in particular from the second nozzle body 20. The mutual holding can be done e.g. by means of a bayonet lock or a thread arrangement. Furthermore, the line connection of the second channel 15 can also have to be broken. For the sake of clarity, a more detailed description and illustration have been omitted. As a result of the removal of the first nozzle body 19 and the associated line interruption in the second channel 15, it is also not possible to remove a first additive 2 from the first container 13. Therefore, the control position of the second adjusting means 30 in relation to the third channel 26 is not important either
and therefore irrelevant.
In this control position, the second adjusting means 30 is in its closed position, for example, whereby the third channel 26 is closed. Simultaneously with this, the flow connection between the first channel 7 and the first sub-channel 33 is interrupted by means of the at least one first actuator 37. For this purpose, the flow connection between the first channel 7 and the second sub-channel 34 of the first channel 7 is formed by means of the second actuator 38. The better distribution of the fluid for generating the spray jet can be achieved by means of the deflector 35 in the end section of the second partial channel 34
the.
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At least one solid granulate is used as the additive 2 for separating or cutting purposes, which can also be referred to as a so-called abrasive and can be formed from the most varied of materials. This can be, for example, the materials iron, steel, quartz, carbides, etc. The additive 2 can, however, also be through dry ice or through a foaming agent, an extinguishing powder, an extinguishing additive or also through a decontamination agent
be educated.
At least the first container 13 can preferably be held removably on the lance body 3. Appropriate coupling means are to be provided for this. The arrangement and mounting of the first container 13 on the lance body 3, or the connection to the second channel 15, can also be designed such that a pivoting movement of the first container 13 relative to the lance body 3 or the second channel 15 is possible. For this purpose, the coupling means (not designated in more detail) can also comprise a pivot arrangement 43. By means of the swivel arrangement 43 it is possible to swivel the first container 13 with the first additive 2 contained therein in such a way that, due to the force of gravity, it is always at the point at which the removal point within the first container 13 is also located. In the interior of the first container 13, starting from the coupling means or the pivoting arrangement 43, a tube located in a fixed position is provided. In this way, a user can hold the lance body 3 in a position intended for the respective use, such as, for example, the handles 5, 6 not pointing in a vertical direction towards the ground, but in a horizontal orientation. The position of the first container 13 can now be readjusted so that the removal point again assumes the position closest to the floor. In the area of the coupling means with the second channel 15 is located
also the removal opening 14 from the first container 13.
To fill the first additive 2 into the first container 13 or refill it
a filling opening 44 can be provided for this purpose - see FIG. 1 in this regard.
In order to prevent an influx of ambient air during the removal of the first additional
to enable by means of 2 from the container interior of the first container 13,
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At least one container opening 40 can be provided. The at least one container opening 40 opens into the container interior of the first container 13 and penetrates the container wall. The interior of the container is thus in flow connection with the external environment via the container opening 40. It can be advantageous, for example, to reduce or prevent the inflow or sucking in of dirt particles, the used and released additive 2 or air humidity, can be closed in the at least one container opening 40.
at least one filter element 41 can be arranged.
As described above, the supply of the first additive 2 via the second channel 15 is indirectly through the release or closure of the third channel 26 and the at least one second adjusting means 30, which is directly connected to the third
th channel 26 is in operative connection, controlled.
In addition to this, however, it would also be possible, as shown in FIG. 9, to provide a third adjusting means 42 in the area of the second adjusting means arrangement 29, which is in direct operative connection with the second channel 15. The third adjusting means 42 is in turn adjustable from a closed position to a release position and vice versa. The flow through the first additive 2 through the second channel 15 can thus be adjusted directly. When the second adjusting means 30 is in the closed position, the third channel 26 is closed, with the third adjusting means 42 being in its release position at the same time and the second channel 15 being continuously open. In this operating position or control position, the first actuator 37 is also in its release position and there is a flow connection between the first channel 7 and the subsequent first sub-channel 33. At the same time, however, the flow connection between the first channel 7 and the subsequent second sub-channel 34 is by means of
of the second actuator 38 interrupted.
In the further possible control position of the second adjusting means arrangement 29, the second adjusting means 30 can be in its release position, the third channel 26 being continuously open, while the third adjusting means 42 is in its own position.
ner closed position and the second channel 15 is closed. In
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In this control position, removal of the first additive 2 from the first container 13 is reliably prevented. The second adjusting means 30 and the third adjusting means 42 of the second adjusting means arrangement 29 are in the axial direction of one another
spaced apart and offset from one another as seen in the circumferential direction.
The actuators 37, 38 of the actuating means group 36 can in the axial direction between
the second adjusting means 30 and the third adjusting means 42 can be arranged.
The third adjusting means 42 of the second adjusting means arrangement 29 can also, as has already been described above, by at least one penetration through the control pin 31 in the transverse direction with respect to its longitudinal extension.
breakage, in particular of at least one bore, be formed.
In Fig. 10 it is also shown that in addition and as an alternative to the first additional
means 2, which can be removed or sucked in from the first container 13, a further additive 45 can optionally be added or admixed to the fluid passed through the first channel 7. A further container 46 is provided for receiving or storing the further additive 45. The further additive 45 can be selected from the group of solid granules, abrasives, extinguishing powder, extinguishing additives, foaming agents, dry ice, decontamination agents. In most cases, however, no solid granulate or abrasive is used
used more, although this is not necessarily excluded.
The design as well as the control position of the control pin 31 with its adjusting means 30 and adjusting elements 37, 38 formed or received therein
can take place as shown in FIG.
The further container 46 is first in flow connection with the second adjusting means arrangement 29 and the second adjusting means 30 via a fourth channel 47. The second adjusting means 30 is in its release position and thus establishes the continuous flow connection starting from the further container 46 via the third channel 26 up to the third channel outlet 28. In order to interrupt the supply of the further additive 45 from the further container 46
prevent, a switching element 48 can be provided in the fourth channel 47, for example
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by means of which the supply and suction of ambient air into the third channel 26 or the suction of the further additive 45 from the further container 46 into the third channel 26 can be selectively controlled. If the switching element 48 is in that operating position in which the suction of ambient air into the third channel 26 is enabled, and the second adjusting means 30 and the adjusting elements 37, 38 are also in the operating position previously described in FIG released from the lance 1 in a full jet, but without the first additive 2. In the further possible operating position of the switching element 48 and with the position of the second adjusting means 30 and the adjusting elements 37, 38 unchanged, the first additive 2 is sucked in via the second channel 15 and the second is sucked in
Additive 45 into the mixing chamber 24 via the third channel 26.
The further container 46 preferably also comprises the at least one container opening 40 already described above for drawing in ambient air into the interior of the container. Furthermore, the filter element 41 for the
Container opening 40 may be provided.
Furthermore, FIG. 10 also shows that at least the first container 13 and / or also the further container 46 can or can be in line connection with at least one additional pressure source 49. Each of the containers 13, 46 can each be in line connection with its own pressure source 49. However, a common pressure source 49 could also be provided for the containers 13, 46. The at least one pressure source 49 can be formed, for example, by a cartridge or a gas cylinder with a pressurized propellant gas which has fire-retardant properties or a fire-retardant effect. This can be, for example, CO2, which is held in a storage container that is not specified in detail. The more detailed designation and description of various line connections was made for better transfer
waived for the sake of visibility.
In FIGS. 11 and 12 there is a further and possibly independent one
Embodiment of the lance 1, in particular its second adjusting means arrangement,
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Again, the same reference numerals or component designations as in the preceding FIGS. 1 to 10 are used for the same parts. To avoid unnecessary repetition, please refer to the detailed description in
the preceding FIGS. 1 to 10 referred to or referred to.
The formation of the lance body 3 with the channels 7, 15 and 26 as well as the sub-channels 33 and 34 of the first channel 7 can take place in a similar manner to that previously
has been described in detail.
In this exemplary embodiment it is provided that the lance 1 comprises at least the two containers 13 and 46 described above, it being possible for these to be arranged directly on the lance body 3 or optionally also to be arranged separately from it. A selected one of the additives 2, 45 described above is accommodated in each of the containers 13, 46. The further container 46 can be in flow connection via the fourth channel 47 with the second adjusting means arrangement 29 and the second adjusting means 30 located there, as has already been described in FIG. 10. The provision of the
Switching element 48 can optionally be dispensed with.
The second channel 15 for the first additional means 2 is, as shown and described in FIG. 9, in a direct operative connection with the third actuating means 42 of the second actuating means arrangement 29. The control pin 31 is again preferably provided here, too, however, the arrangement and design of the actuating means 30, 42 and of the actuating elements 37 and 38 of the actuating means group 36 must be adapted to the respectively required operating positions. This can be achieved, for example, by dismantling or removing the existing control pin 31, possibly together with the second handle 6, from the lance body 3
and is replaced by an adapted new further control pin 31 °.
11 shows that operating position or control position of the actuating means 30, 42 and of the actuating elements 37 and 38 of the actuating means group 36, which are formed or arranged on the control pin 31, in which the first actuating element 37 of the actuating means group 36 controls the flow of the pressurized fluids from
first channel 7 into the first sub-channel 33 following in the flow direction
N2019 / 35600-AT-00
releases. This represents the release position for the flow of the fluid. The second actuating element 38 of the actuating means group 36 is in its closed position or blocking position. It can possibly affect training at all
or arrangement of the second actuator 38 can be dispensed with.
Furthermore, the second adjusting means 30, in particular the opening 32 forming the adjusting means 30, is in its closed position or blocking position. However, the third adjusting means 42 for the second channel 15 is in its release position. In this operating position, the third channel 26 is to be regarded as closed, the fluid flows from the second channel 7 via the opened first actuator 37 into the first sub-channel 33 to the first channel outlet 9, further into the mixing chamber 24 of the first nozzle body 19 and enters the outlet opening 23 from the lance 1. Since the third adjusting means 42 for the second channel 15 is in its release position, the first additive 2 can be sucked into the mixing chamber 24 and added to the fluid before it emerges from the first nozzle body 19. This is also because the second adjusting means 30 is in his
Locked position or locked position is.
In FIG. 12, that operating position or control position of the actuating means 30, 42 and of the actuating elements 37 and 38 of the actuating means group 36 is shown, in which an admixture or admixture of the first additive 2 is not provided. On the other hand, only the further or second additive 45, starting from the second or further container 46, possibly the fourth channel 47, should pass via the third channel 26 into the mixing chamber 24 and there the flow through it.
be added to the fluid.
For this purpose, the third adjusting means 42 for the second channel 15 is in its closed position or blocked position. The supply or the suction of the first additive 2 from the first container 13 is thus prevented. The second adjusting means 30, in particular the opening 32 forming the adjusting means 30, is in its release position. Thus, a continuous flow connection starting from the further container 46, possibly the fourth channel 47, is the
second adjusting means 30, the third channel 26 up to the third channel outlet 28
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educated. The first actuator 37 of the actuator group 36 is in its release position and guides the fluid from the first channel 7 into the subsequent first sub-channel 33. The second actuator 38 of the actuator group 36 is located
in its closed position or locked position.
With this design of the second adjusting means arrangement 29 it is possible to emit a full jet of the fluid in each of the two operating positions, but to be able to emit different additives 2, 45 as required. In the first operating position according to FIG. 11, only or exclusively the first additive 2 is added to the fluid via the second channel 15. If, on the other hand, the second operating position according to FIG. 12 is selected, only or exclusively the further
tere additives 45 added via the third channel 26 to the fluid.
This provides the user of the lance 1 with a simple switchover option in the event of use. Thus, in the first operating position, a cutting or separating process in the solid, which usually represents an obstacle to the extinguishing or cooling process, can be carried out to form the access opening. Once this has been done, it is possible to switch over or switch over to the addition or admixture of the further additive 45 quickly, in particular with a pivoting movement of the second handle 6 together with the control pin 31 ‘about its longitudinal axis. Depending on which of the containers 13, 46 is currently being withdrawn from, the respective additive 45, 2 can be refilled into the unneeded container 46, 13 or a container at all.
exchange can be carried out.
Furthermore, it can also be provided that not only a full jet with the
Lance 1 can be delivered, but optionally also a spray jet, as has already been described above. For this purpose, the first nozzle body 19 can remain arranged on the lance body 3 or the second nozzle body 20.
However, a decrease or removal of the same is preferably provided.
With a corresponding arrangement and design of the second actuator 38, the forwarding of the fluid from the first channel 7 into its second sub-channel 34 can take place
can be controlled optionally. For this it would be possible to use a blocking or separating element
N2019 / 35600-AT-00
51 - see FIG. 1 - to be provided in the longitudinal course of the second channel 15. The flow of the first additive 2 through the second channel 15 can thus be interrupted or shut off and / or the first nozzle body 19 with a section of the second channel 15 up to the blocking or separating element 51 can be removed. In the corresponding operating position, the second additive 45 can then be mixed in or added after the second adjusting means 30 has been released through the third channel 26, but the pressurized fluid is fed to the second sub-channel 34 via the second adjusting element 38. The fluid then flows into the mixing chamber 24 and is combined therein with the second or further additive 45 and out of the lance together
1 submitted.
Finally, it should be pointed out that the lance 1 shown in FIGS. 1 to 12 and its components are only to be regarded as possible exemplary embodiments, arrangements of the channels 7, 15 and 26 that deviate therefrom are also possible. For example, the second channel 15 could run or be arranged laterally or above the lance body 3. However, the same also applies to the sub-channels 33 and 34 of the first channel 7 following the second adjusting means arrangement 29. Thus, the first and second sub-channels 33 and 34 can also be arranged to run next to one another. It would also be possible to use the second channel
15 to be arranged or designed within the lance body 3.
At least the first container 13 is preferably held removably on the lance body 3. However, it would also be possible to keep the first container 13 separate from the lance 1, in particular on the operator of the lance 1. For example, the first container 13 could be carried by the operator on his back and / or on a belt. Another possibility would be to carry the first container 13 only to the place of use and to set it down there on the ground separately from the lance 1. The second channel 15 forms the connecting line
between the first container 13 and the first nozzle body 19.
The exemplary embodiments show possible design variants, with this
Place it should be noted that the invention is not limited to the specifically illustrated embodiments
N2019 / 35600-AT-00
The same is limited, but also various combinations of the individual design variants with one another are possible and this possibility of variation is based on the teaching of technical action through the present invention in the ability of the person working in this technical field
Specialist lies.
The scope of protection is determined by the claims. However, the description and the drawings are to be used to interpret the claims. Individual features or combinations of features from the different exemplary embodiments shown and described can represent independent inventive solutions. The independent inventive solutions
The basic task can be found in the description.
All information on value ranges in the present description are to be understood in such a way that they include any and all sub-areas thereof, e.g. the information 1 to 10 is to be understood in such a way that all sub-areas, starting from the lower limit 1 and the upper limit 10, are also included , ie all sub-ranges begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, for example 1 to 1.7, or 3.2 to 8.1, or 5.5 to 10.
For the sake of clarity, it should finally be pointed out that, for a better understanding of the structure, some elements are not to scale and / or enlarged
and / or shown reduced.
N2019 / 35600-AT-00
32
List of reference symbols
lance
first additional center | Lance body handle assembly
first grip
second handle
first channel
first channel inlet first channel outlet supply line
first adjusting means arrangement first adjusting means first container removal opening second channel
second channel inlet second channel outlet nozzle arrangement first nozzle body second nozzle body first inlet opening second inlet opening outlet opening mixing chamber longitudinal axis
third channel
third channel inlet, third channel outlet, second actuating means arrangement
second control center! l
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51
Control pin breakthrough
first sub-channel second sub-channel deflecting body actuating means group first actuating element second adjusting element enforcement container opening filter element
third adjusting means swivel arrangement filling opening further additional means further container fourth channel switching element pressure source stop element
Separating organ
N2019 / 35600-A T-00

权利要求:
Claims (28)
[1]
1. Lance (1), in particular for the optional delivery of a pressurized fluid or for the joint delivery of a mixture of the pressurized fluid and at least one additive (2, 45), comprising
- a lance body (3),
- A handle arrangement (4), which handle arrangement (4) is arranged or formed on the lance body (3) and comprises a first handle (5) and a second handle (6), the two handles (5, 6) in the longitudinal direction of the lance body (3) are arranged at a distance from one another and each handle (5, 6) can be grasped by one hand of a user for operating the lance (1),
- At least one first channel (7) with a first channel inlet (8) and a first channel outlet (9), wherein the first channel inlet (8) can be connected to a supply line (10) of the pressurized fluid,
- A first actuating means arrangement (11), which first actuating means arrangement (11) is arranged in the area of the first handle (5) of the handle arrangement (4) and a first actuating means (12) directly in operative connection with the first channel (7) stands, the first adjusting means (12) being adjustable from a blocking position to a flow-through position and vice versa, and thus the flow of the pressurized fluid through the first channel (7) can be adjusted,
- At least one container (13) with at least one removal opening (14), wherein the first additive (2) can be received in the first container (13),
- At least one second channel (15) with a second channel inlet (16) and a second channel outlet (17), the second channel inlet (16) being in flow connection with the at least one removal opening (14) of the first container (13),
- A second adjusting means arrangement (29), which second adjusting means arrangement (29) comprises at least one second adjusting means (30), the second adjusting means (30) from a closed position to a release position and vice versa
is adjustable and thus the flow of the first additive (2) through the
N2019 / 35600-AT-00
second channel (15) is adjustable,
- A nozzle arrangement (18) with a first nozzle body (19), wherein at least one first inlet opening (21), a second inlet opening (22), at least one outlet opening (23) and a mixing chamber (24) are formed in the first nozzle body (19) are arranged, and wherein the inlet openings (21, 22) open into the mixing chamber (24) and the mixing chamber (24) is in flow connection with the at least one outlet opening (23),
- wherein the first channel outlet (9) of the first channel (7) is in flow connection with the at least one first inlet opening (21) of the first nozzle body (19), and
- wherein the second channel outlet (17) of the second channel (15) is in flow connection with the second inlet opening (22) of the first nozzle body (19),
characterized,
- that at least a third channel (26) with a third channel inlet (27) and a third channel outlet (28) is provided, and the third channel inlet (27) is in flow connection with the external environment,
- That the third channel outlet (28) of the third channel (26) is in flow connection directly with the at least one first inlet opening (21) of the first nozzle body (19),
- that the second adjusting means (30) of the second adjusting means arrangement (29) is directly in operative connection with the third channel (26) and the second adjusting means arrangement (29) is arranged in the area of the second handle (6),
- That the third channel (26) is continuously open between its third channel inlet (27) and its third channel outlet (28) when the second adjusting means (30) is in the release position and thus ambient air can flow through the third channel (26) to the mixing chamber (24) is enabled, and
- That the third channel (26) is located between its third channel inlet (27) and its third channel outlet (28) when it is in the closed position.
chem second adjusting means (30) is closed and thus a flow of
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Ambient air through the third channel (26) to the mixing chamber (24) and
is tied.
[2]
2. Lance (1) according to claim 1, characterized in that the at least one first channel (7) and the at least one third channel (26) in the Lanzenkö6ör-
are arranged or formed by (3).
[3]
3. Lance (1) according to claim 1 or 2, characterized in that the second channel (15) is formed by its own connecting line and the connecting line outside of the lance body (3) or within the lance body
pers (3) is arranged to run.
[4]
4. Lance (1) according to one of the preceding claims, characterized in that the second adjusting means arrangement (29) comprises a control pin (31), which control pin (31) can be pivoted about its longitudinal axis on
Lance body (3) is mounted.
[5]
5. Lance (1) according to claim 4, characterized in that the second adjusting means (30) of the second adjusting means arrangement (29) from an opening (32) penetrating the control pin (31) in the radial direction, in particular from
at least one bore is formed.
[6]
6. Lance (1) according to one of the preceding claims, characterized in that the second adjusting means arrangement (29) further comprises a third adjusting means (42) and the third adjusting means (42) is directly in operative connection with the second channel (15) , wherein the third adjusting means (42) is adjustable from a closed position to a release position and vice versa and thus the flow of the first additive (2) through the second channel (15) is directly adjustable.
is cash.
N2019 / 35600-AT-00
[7]
7. Lance (1) according to claim 6, characterized in that the third channel (26) is closed when the second adjusting means (30) is in the closed position and the third adjusting means (42) is in its release position and the second channel ( 15) is continuously open, or that the third channel (26) is continuously open when the second adjusting means (30) is in the release position and the third adjusting means (42) is in its closed position
and the second channel (15) is closed.
[8]
8. Lance (1) according to claim 6 or 7, characterized in that the second adjusting means (30) and the third adjusting means (42) of the second adjusting means arrangement (29) are spaced apart in the axial direction and in the circumferential direction.
see are arranged offset to one another.
[9]
9. Lance (1) according to one of the preceding claims, characterized in that a second nozzle body (20) is provided, which second nozzle body (20) is arranged upstream of the first nozzle body (19) in the flow direction of the pressurized fluid and the first channel outlet (9) des
first channel (7) is arranged or formed in the second nozzle body (20).
[10]
10. lance (1) according to claim 9, characterized in that the third
Channel (26) is also arranged or formed in the second nozzle body (20).
[11]
11. Lance (1) according to one of the preceding claims, characterized in that the first nozzle body (19) of the nozzle arrangement (18) is removable on the lance body (3), in particular removable on the second nozzle body.
per (20).
[12]
12. Lance (1) according to one of the preceding claims, characterized in that the first channel (7) in its longitudinal section between the
second actuating means arrangement (29) and the first channel outlet (9) a first
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Partial channel (33) and a second partial channel (34) comprises and the first partial channel
(33) is arranged within the second sub-channel (34).
[13]
13. Lance (1) according to claim 12, characterized in that the first partial channel (33) ends in the axial direction in front of the first channel outlet (9) and opens into the second partial channel (34) surrounding the first partial channel (33) and further at least one End portion of the first partial channel (33) with respect to the first
Channel outlet (9) is arranged in alignment with this.
[14]
14. Lance (1) according to one of the preceding claims, characterized in that the second adjusting means arrangement (29) further comprises an adjusting means group (36) with at least one first adjusting element (37) and a second adjusting element (38), which adjusting elements ( 37, 38) of the actuating agent group (36) with
the first channel (7) are in direct operative connection.
[15]
15. Lance (1) according to claim 14, characterized in that the actuating elements (37, 38) of the actuating means group (36) in each case by a penetration (39) penetrating the control pin (31) in the radial direction, in particular in each case
are formed by at least one bore.
[16]
16. Lance (1) according to claim 14 or 15, characterized in that the actuating elements (37, 38) of the actuating means group (36) are spaced apart from one another in the axial direction and are circumferentially offset from one another by an offset angle viewed in the circumferential direction and optionally only one of the
organs (37, 38) allows the flow of the pressurized fluid.
[17]
17. Lance (1) according to one of claims 14 to 16, characterized in that the first actuator (37) of the actuator group (36) is in direct operative connection with the first sub-channel (33) and the second actuator (38) of the Actuating means group (36) is in direct operative connection with the second sub-channel (34).
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[18]
18. Lance (1) according to one of the preceding claims, characterized in that when the second adjusting means (30) is in the closed position, the third channel (26) is closed and at the same time the flow connection between the at least one first adjusting element (37) first channel (7) and the first sub-channel (33) is formed and further by means of the second actuator (38) the flow connection between the first channel (7)
and the second sub-channel (34) is interrupted.
[19]
19. Lance (1) according to one of claims 1 to 17, characterized in that when the second adjusting means (30) is in the release position, the third channel (26) is continuously open and at the same time by means of the at least one first adjusting element (37) Flow connection between the first channel (7) and the first sub-channel (33) is formed and further by means of the second actuator (38) the flow connection between the first channel (7) and the
second sub-channel (34) is interrupted.
[20]
20. Lance (1) according to one of claims 1 to 17, characterized in that when the first nozzle body (19) is removed and the second adjusting means (30) is in the closed position, the third channel (26) is closed and at the same time by means of the at least a first control element (37), the flow connection between the first channel (7) and the first sub-channel (33) is interrupted and, furthermore, the flow connection between the first channel (7) and the second sub-channel (34) is established by means of the second control element (38) is.
[21]
21. Lance (1) according to one of claims 4 to 20, characterized in that the second handle (6) of the handle arrangement (4) is rotatably coupled to the control pin (31) of the second adjusting means arrangement (29), in particular the second
Handle (6) and the control pin (31) are integrally formed.
N2019 / 35600-AT-00
[22]
22. Lance (1) according to one of the preceding claims, characterized in that a further container (46) is provided for a further additive (45) to be received therein and the further container (46) via a fourth channel (47) with the second Adjusting means arrangement (29) and further with the third
th channel (26) is in flow connection.
[23]
23. Lance (1) according to one of the preceding claims, characterized in that at least one of the containers (13, 46) can be removed from the lance
body (3) is held.
[24]
24. Lance (1) according to one of the preceding claims, characterized in that a pivot arrangement (43) is provided, by means of which pivot arrangement (43) at least the first container (13) can be pivoted on
Lance body (3) is held.
[25]
25. Lance (1) according to one of the preceding claims, characterized in that at least one container opening (40) is provided, which at least one container opening (40) opens into a container interior of the container (13, 46).
[26]
26. Lance (1) according to claim 25, characterized in that the container interior is in flow connection with the external environment via the container opening (40) and at least one filter element is in the container opening (40).
ment (41) is arranged.
[27]
27. Lance according to one of claims 22 to 26, characterized in that at least the further container (46) is provided and the second adjusting means arrangement (29) further comprises the third adjusting means (42), the second adjusting means in a first operating position -Arrangement (29) is the third adjusting means
(42) and the first actuator (37) of the actuator group (36) each in their free
N2019 / 35600-AT-00
and the second adjusting means (30) is in its closed position and the third channel (26) is closed, and in a second operating position of the second adjusting means arrangement (29) the first adjusting element (37) of the adjusting means group ( 36) and the second adjusting means (30) are each in their release position and the third adjusting means (42) is in its closure
position and the second channel (15) is closed.
[28]
28. Lance (1) according to one of the preceding claims, characterized in that the additive (2, 45) from the group of solid granules, extinguishing powder, extinguishing additive, foaming agent, dry ice, decontamination agent
is selected.
N2019 / 35600-AT-00

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同族专利:

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公开号 | 公开日

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AT522886B1|2021-03-15|

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WO2021102495A1|2021-06-03|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

DE1189854B|1960-02-19|1965-03-25|Walther & Cie Ag|Jet pipe for fire extinguishing purposes|

---

US4497442A|1983-04-06|1985-02-05|Cause Consequence Analysis, Inc.|Foam-applying nozzle having adjustable flow rates|

---

WO1984004060A1|1983-04-11|1984-10-25|Joergen Erneberg|Foam spraying device|

---

EP0780528A1|1995-12-22|1997-06-25|Usbi, Co.|Spray apparatus for application of high build coatings/layers|

---

EP2168636A1|2008-09-29|2010-03-31|Cold Cut Systems Svenska AB|Equipment and method for penetration of objects and injection of fluid into a space|

---

ITVI20120326A1|2012-12-03|2014-06-04|Cristanini Spa|FIRE LAUNCH|

---

CN109513149A|2017-09-18|2019-03-26|中联正安消防工程有限公司|A kind of fire water monitor of adjustable range|

---

DE29605357U1|1996-03-22|1996-06-05|Platz Reinigungssysteme Gmbh|Cleaning device|

---

SE539933C2|2016-06-02|2018-01-23|Cristanini Spa|A fire-fighting lance for extinguishment of a fire in a closed space|CN113198632A|2021-04-08|2021-08-03|成都工业职业技术学院|Automobile paint spraying device|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA51022/2019A|AT522886B1|2019-11-25|2019-11-25|Lance, in particular fire fighting lance|ATA51022/2019A| AT522886B1|2019-11-25|2019-11-25|Lance, in particular fire fighting lance|

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PCT/AT2020/060417| WO2021102495A1|2019-11-25|2020-11-24|Lance, in particular extinguishing lance for fighting fires|