EP3581725A1 - Dispositif de déviation transportable pour dévier un flux de liquide sous pression et procédés utilisant ce dispositif de déviation - Google Patents

Dispositif de déviation transportable pour dévier un flux de liquide sous pression et procédés utilisant ce dispositif de déviation Download PDF

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Publication number
EP3581725A1
EP3581725A1 EP18177624.6A EP18177624A EP3581725A1 EP 3581725 A1 EP3581725 A1 EP 3581725A1 EP 18177624 A EP18177624 A EP 18177624A EP 3581725 A1 EP3581725 A1 EP 3581725A1
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EP
European Patent Office
Prior art keywords
hollow body
deflection device
liquid
opening
liquid flow
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP18177624.6A
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German (de)
English (en)
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EP3581725B1 (fr
Inventor
Helmuth Pfitzmeier
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Faszitech Ug Haftungsbeschraenkt
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Faszitech Ug Haftungsbeschraenkt
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Priority to EP18177624.6A priority Critical patent/EP3581725B1/fr
Publication of EP3581725A1 publication Critical patent/EP3581725A1/fr
Application granted granted Critical
Publication of EP3581725B1 publication Critical patent/EP3581725B1/fr
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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F5/00Sewerage structures
    • E03F5/02Manhole shafts or other inspection chambers; Snow-filling openings; accessories

Definitions

  • the invention relates to a transportable deflection device for deflecting a pressurized liquid flow of a liquid with at least one hollow body closed at least on one end side of the hollow body for the liquid flow, the hollow body having at least one outlet opening on an outlet side of the hollow body opposite the end side for the outlet of the liquid flow from the hollow body in includes an exit direction.
  • the invention further relates to an introductory method for introducing a liquid into a horizontal sewer shaft opening, a diverting method for discharging a liquid onto a horizontal surface, a pumping-out method for pumping out a liquid from a space flooded by the liquid, and a removal method for removing a liquid from a body of water a deflection device according to the invention.
  • the laminar water jet After leaving the hose lines, the laminar water jet has a negative effect on the sewer structure by pushing water through the connection points of the manhole rings of the street shaft and loosening the surrounding sand bed of the sewer pipes. With the alternative open outlet of hose lines into the terrain, the water jet damages the surface.
  • Pressure hose lines are kinked when they are introduced into a street shaft, which disturbs the flow. Couplings of the hose line can move in the shaft and hit each other or on the shaft walls, causing damage. If dirty water is pumped with higher pressure, the hoses are pushed out of the shaft. If the hoses are weighed down, for example by sandbags, they can hold them in the shaft, but this will further disrupt the flow. Furthermore, there is Danger of the shaft walls being damaged by water introduced at high pressure.
  • dimensionally stable (suction) hoses require a relatively large radius and, if necessary, supports. Furthermore, their larger diameter and the inlet angle require more space in the shaft opening. Here, too, there is a risk that the hoses will be pushed out of the shaft if the water pressure is higher.
  • Suitable inlet bends for individual A lines with a diameter of approx. 100 mm are rare for fire brigades and in F dimension (150 mm diameter) usually only available in the specialist groups for water damage and pumps from the technical relief organization and also in very limited numbers.
  • the publication WO2005038153 (A1 ) discloses a, in particular cylindrical, top-mounted container for channel openings with a bottom opening enclosed by a sealing flange.
  • the add-on container is placed on a sewer opening so that it fills with water rising from the sewer shaft.
  • the water column in the top container forms a counter pressure against the rising flood water, so that it does not escape.
  • the water level drops, the water can flow back into the manhole through the bottom opening.
  • the publication DE202007011556 (U1 ) discloses a device with an adapter system for sealed placement on a drain, which can be portable.
  • the device is intended to absorb water escaping from the outlet and to discharge it with a pump, for example through a connected hose. There is no description of the possibility of introducing water into the drain.
  • the object of the invention is to provide an inexpensive device and an easy to implement method for safe and reliable, infrastructure-friendly and time-efficient pumping of a liquid.
  • the object of the present invention provides a deflection device which solves the technical problem according to the features of claim 1. Likewise, the object is achieved by an introduction method according to claim 12, a rejection method according to claim 13, a pumping method according to claim 14 and a removal method according to claim 15. Advantageous refinements result from the dependent claims.
  • a transportable deflection device is designed to deflect a pressurized liquid flow.
  • Pressure in the sense of the invention means that a pressure of the liquid is higher than an ambient pressure of the deflection device, for example because the liquid flow is driven by a pump.
  • the deflection device is preferably designed for introducing a liquid into a horizontal duct opening.
  • a "horizontal sewer shaft opening" in the sense of the invention is an opening of a shaft of a sewer system, the opening plane of which is essentially horizontal.
  • a horizontal sewer shaft opening can be, for example, a street shaft opening, in particular in accordance with the DIN EN 124 DN 600 standard.
  • a liquid in the sense of the invention is, for example, water, in particular water with other substances dissolved and / or suspended therein.
  • the liquid can be dirty water.
  • the deflection device is transportable, so that the deflection device can be transported quickly and easily to a place of use.
  • Transportable in the sense of the invention includes transport with technical aids, for example with a forklift, a crane or a pallet truck.
  • the deflection device can be portable.
  • “Portable” in the sense of the invention means that the deflection device is so small and light that the deflection device can be carried by a single person at least over a short distance, for example from a transport vehicle to a manhole opening, without technical aids.
  • the hollow body can have a maximum extension of at most 100 cm, in particular at most 80 cm, and / or a mass of at most 50 kg, in particular at most 35 kg.
  • the deflection device advantageously comprises a number of carrying handles for carrying the deflection device.
  • the deflection device comprises at least one hollow body closed at least on one end side of the hollow body for the liquid flow, the hollow body comprising at least one, for example circular, outlet opening on an outlet side of the hollow body opposite the end side for the outlet of the liquid flow from the hollow body in an exit direction.
  • “Closed for the liquid flow” means that on the end side at most a negligibly small proportion of the liquid flow, for example less than 1%, can emerge from the hollow body.
  • the hollow body on the end side is preferably impermeable to the liquid under normal operating conditions.
  • the hollow body can comprise not only one, but a plurality of, for example two, three, four, five or six, in particular circular, inlet openings for the entry of the liquid flow into the hollow body in each case in an inlet direction essentially orthogonal to the outlet direction.
  • An “essentially orthogonal” entry direction forms an angle with the exit direction, for example, between 80 ° and 100 °, in particular between 85 ° and 95 °, preferably of 90 °.
  • a liquid flow can be deflected into the outlet direction from a plurality of inlet directions orthogonal to the outlet direction through the inlet openings.
  • a plurality of horizontal supply lines for the liquid flow can be connected to a horizontal duct shaft opening simply and in a space-saving manner via a single deflection device.
  • the hollow body can comprise at least one diffusion element, in particular a diffuser, for reducing the flow rate of the liquid flow entering through one of the inlet openings.
  • a diffusion element is preferably assigned to each inlet opening.
  • the jet velocity therefore has a very high influence on the jet power of the liquid flow.
  • a large part of the beam power is neutralized by the diffusion element and thus a mechanical load on objects that are arranged downstream of the deflection device, for example a sewer duct, is reduced by the liquid flow, so that damage to the objects is prevented.
  • the diffusion element can convert the liquid flow entering the hollow body through the inlet opening, in particular from a laminar flow into a turbulent flow, as a result of which friction losses occur within the liquid, which further reduce the jet power of the liquid flow.
  • the hollow body preferably comprises at least one end wall that is closed for the liquid flow, for example disk-shaped and / or orthogonal to the outlet direction, and at least one, for example cylindrical, side wall that connects the end wall with an edge of the outlet opening, the inlet openings being arranged in the side wall.
  • the end wall and the side wall advantageously consist of a pressure-stable material, for example steel.
  • the end wall and the side wall are preferably firmly connected to one another, for example welded.
  • the end wall has the advantage that there is a leakage of liquid on the Prevents end and, especially if the end wall is oriented orthogonally to the exit direction, provides a storage area for items of equipment and / or for ballast to weigh down the deflection device.
  • essentially horizontal feed lines for example hoses laid on a street, can be connected to the inlet openings without bends or kinks, so that the liquid can enter the hollow body unhindered.
  • a "horizontal feed line" in the sense of the invention guides the liquid flow in a substantially horizontal direction.
  • the feed line can be, for example, a hose, in particular a pressure hose or a suction hose.
  • the deflection device can have at least one fixing device for fixing the deflection device to the sewer shaft opening.
  • the fixing device advantageously prevents the deflection device from being removed from the manhole opening, for example by pressure of the introduced liquid, which could result in an uncontrolled escape of the liquid, damage to the deflection device or other objects or injuries to persons.
  • the fixing device can be formed by a sufficiently large mass of the deflection device or a ballast connected to it, for example lying on the deflection device, which prevents the deflection device from being moved by pressures of the liquid that occur when the deflection device is used.
  • the ballast can be formed, for example, by a number of sandbags lying on the end wall and / or a manhole cover.
  • the fixing device can comprise at least one fixing section of a side wall of the hollow body that can be inserted into the duct shaft opening.
  • the fixing section prevents the hollow body from moving horizontally away from the duct shaft opening in a structurally simple and effective manner.
  • a fixation against a horizontal movement is particularly important because a liquid supplied in the horizontal direction mainly causes horizontally acting forces.
  • the aforementioned fixation by a mass of the deflection device against horizontal movement is particularly ineffective.
  • the side wall section is advantageously cylindrical in shape and has an outer diameter which is less than or equal to a nominal width of the duct shaft opening.
  • the outer diameter is preferably only slightly smaller than the nominal width, so that the largest possible outlet opening results for the introduction of a large liquid flow into the sewer shaft.
  • the smallest possible gap between the side wall section and the manhole prevents that objects, animals or people fall into the manhole.
  • the outside diameter should be at least so much smaller than the nominal width that the side wall section can also be inserted without problems into a duct shaft opening whose actual width is smaller than its nominal width within the usual tolerances.
  • the outside diameter of the side wall section is 5 to 15%, in particular 10%, smaller than the nominal width of the duct shaft opening.
  • an outside diameter of the side wall section of 56 cm can be provided for a sewer shaft opening according to the standard DIN EN 124 DN 600 with a nominal width of 60 cm.
  • the entire side wall is advantageously cylindrically shaped and in particular has exactly one uniform outer diameter.
  • the fixing device can comprise a support device, in particular a ring-shaped support attached to the deflection device, for support on an edge of the duct shaft opening.
  • the support device can, for example, be welded to the deflection device, in particular to a side wall of the hollow body.
  • the support device can comprise, for example, a projection running around on an outer side of the side wall.
  • annular support device designed as a projection on the outside of the side wall perpendicular to the side wall is wider than half a difference between an outside diameter of the side wall at the level of the support device and a nominal width of the duct shaft opening. A possible space between the side wall and the edge of the manhole opening is completely covered by the support device, so that nothing can fall into the manhole.
  • the width of the support device perpendicular to the side wall can be 5 to 15%, in particular 10%, of the nominal width of the sewer shaft opening.
  • a manhole opening with a nominal width of 60 cm for example, an outer diameter of the side wall of 56 cm and a width of the support device perpendicular to the side wall of 6 cm have proven to be particularly advantageous.
  • the support device allows the hollow body, in particular fixed by its own mass or a ballast, to rest securely on the edge without the risk of the hollow body slipping or falling into the sewer shaft.
  • an annular support device enables a circumferential and thus particularly stable support.
  • the support device can serve as a transport aid for transporting the hollow body, for example serve by placing the support device on two forks of a forklift.
  • a protruding height of the deflection device above the sewer shaft opening when the deflection device with the support device rests on the edge of the sewer shaft opening is less than or equal to a radius of a rescue vehicle and a load capacity of the deflection device is greater than or equal to a wheel load of the rescue vehicle.
  • the rescue vehicle can drive over the hollow body if necessary, so that no escape routes are blocked by the hollow body.
  • the overhang height can be less than 50 cm, in particular less than 30 cm, for example 24 cm.
  • the load capacity is advantageously at least 500 kg, in particular at least 1 t.
  • the diffusion element can comprise a diffusion section of the side wall opposite the respective inlet opening and closed for the liquid flow. When the liquid flow hits the diffusion section, it is reflected on it and thereby expanded and slowed down.
  • the diffusion section represents a particularly simple to construct and maintenance-free configuration of the diffusion element.
  • each inlet opening has a closed diffusion section opposite, this has the additional advantage that, even while liquid is introduced through a number of inlet openings into the hollow body, feed lines can be detached from the deflection device and / or connected to further inlet openings without liquid being present high pressure emerges from the affected entry openings.
  • a total cross-sectional area of the inlet openings is advantageously less than or equal to a cross-sectional area of the at least one outlet opening. As a result, no liquid build-up forms within the hollow body. If the total cross-sectional area of the inlet openings is smaller than the cross-sectional area of the outlet opening, the exiting liquid pressure is therefore less than the entering liquid pressure.
  • This pressure reduction leads to a lower mechanical load due to the liquid pressure of objects arranged downstream of the deflection device, for example a sewer shaft.
  • the pressure reduction is particularly advantageous if the sewer shaft is a conventional street shaft, which is usually only watertight for an internal excess pressure of up to 0.5 bar.
  • At least one, preferably each, of the inlet openings can comprise a connecting device for connecting at least one horizontal feed line for introducing the liquid into the hollow body.
  • At least one, in particular each, of the connection devices can, for example, in particular one attached to the side wall welded on, connecting piece.
  • a connecting piece can in particular also serve as a handle for carrying the deflection device.
  • the at least one connection device can comprise at least one coupling for connecting the feed line.
  • a coupling for example a DIN fixed coupling, in particular of the type A or B, or a Perrot fixed coupling, in particular of the type SK, enables connecting lines to be connected quickly, easily and safely and disconnected again.
  • Multiple feed lines can be connected to the same connection device via collecting pieces, in particular Y pieces. Using transition pieces and / or adapters, supply lines can be connected to connection devices that do not have couplings that match the supply lines.
  • the at least one connection device can comprise a closure element for closing the inlet opening assigned to the connection device.
  • a closure element advantageously prevents liquid from escaping from the hollow body from an inlet opening to which no feed line is connected.
  • the closure element comprises a cover, in particular a blind cover or a blind coupling.
  • the closure element can comprise a valve, in particular a manually or automatically operated valve, for example a check valve.
  • At least one of the inlet openings can comprise at least one alignment element for aligning a liquid flow entering the hollow body through the inlet opening.
  • the alignment element can align the liquid flow offset, for example, with respect to a vertical central axis of the hollow body. This creates a vortex in the hollow body, as a result of which the liquid can exit the hollow body more quickly through the outlet opening, so that no liquid build-up occurs in the hollow body.
  • the alignment element can align the liquid flow in such a way that the liquid flow strikes a diffusion element as completely as possible under normal operating conditions of the deflection device.
  • the alignment element can be formed in a particularly simple manner by a correspondingly aligned connection piece of the connection device assigned to the inlet opening.
  • the alignment element can comprise a number of baffles for the liquid flow.
  • the deflection device is preferably pressure-stable, preferably for a pressure of the liquid flow of at least 5 bar, in particular at least 8 bar, and / or for a high volume flow of the liquid flow of at least 1 m3 / min, in particular at least 5 m3 / min, for example at least 10 m3 / min, designed.
  • a pressure-stable design and / or a design for a high volume flow ensures safe and reliable use of the deflection device for the deflection a liquid flow with high pressure and / or volume flow, such as occurs when fighting a flood event.
  • the deflection device in particular the hollow body, a support device and / or connecting devices of the deflection device advantageously consist of a pressure-stable material, for example aluminum and / or steel.
  • the hollow body and the support device and / or the connection devices are preferably firmly connected to one another, for example welded. In this way, a high pressure stability of the deflection device is ensured.
  • the deflection device can comprise at least one warning marking for better visual recognition, for example a yellow / black sticker and / or paint.
  • connection can take place before and / or after the arrangement.
  • the deflection device By using the deflection device according to the invention, a large flow of liquid, in particular through a plurality of horizontal feed lines, can be introduced into the duct shaft opening quickly, easily and safely.
  • the deflection device offers a quick and easy way, especially for temporary use, of horizontally connecting a reasonable number of hose lines with a high delivery rate to a street shaft, in order to discharge water into the sewage system without adverse effects.
  • the arrangement advantageously comprises fixing the deflection device to the duct shaft opening, for example by inserting a fixing section of a side wall of the hollow body into the duct shaft opening.
  • connection can take place before and / or after the arrangement.
  • the arrangement advantageously comprises placing a discharge tarpaulin, for example an at least 3 m ⁇ 3 m plastic tarpaulin, under the hollow body in order to protect the surface.
  • a discharge tarpaulin for example an at least 3 m ⁇ 3 m plastic tarpaulin
  • the deflection device arranged with the outlet opening facing up can be used in particular as a 'free outlet', i.e. when pumped water is drained off-site.
  • the deflection device prevents water jet rinsing of the area through individual hose lines.
  • the effect of neutralizing flow energy to prevent rinsing is further enhanced by the volume of water present in the hollow body of the deflection device.
  • connection can take place before and / or after the arrangement.
  • the arrangement can take place, for example, on a spacer, for example at least one bar or a grid, above the floor, preferably 1 to 10 cm above the floor, in particular 3 to 5 cm above the floor. If the deflection device is arranged at a distance from the floor above the floor, the water can be pumped out through the outlet opening facing the floor, the hollow body and the feed line.
  • the hollow body in particular a side wall of the hollow body, can have a number of additional openings for the liquid adjacent to the outlet opening.
  • the additional openings can, for example, by a crenellated be formed edge of the outlet opening. Through the additional openings, liquid can also be pumped out of the room through the hollow body and the feed line when the outlet opening lies directly on the floor of the room.
  • the space can in particular be a duct shaft of a duct, on the duct shaft opening of which the deflection device is arranged as in the discharge method according to the invention.
  • relief pumping from the sewer can take place, for example, by means of high-performance pumps in order to reduce overflow of the sewer.
  • connection can take place before and / or after the arrangement.
  • the use of the deflection device with the outlet opening pointing upwards can minimize the suction of sediments from the bottom of the water. This also applies to submersible pumps that can be used in the hollow body.
  • a collector piece A-2B (AWG, DIN 14355), two transition pieces Gr. A-B (LM, DIN 14343) and two transition pieces Gr. B-C (LM, DIN 14342) can be provided.
  • all welded attachments are made of stainless steel and all 'Storz' parts are made of aluminum.
  • FIG. 1 shows a schematic, perspective illustration of a deflection device 100 according to the invention for diverting a pressurized liquid flow.
  • the deflection device 100 comprises a hollow body 101 with a, for example disk-shaped, end wall 140 on a closing side 104 of the hollow body 101 and an outlet opening for the outlet of the liquid flow in an outlet direction AR on an outlet side of the hollow body opposite the closing side 104.
  • the end wall 140 and the edge 120 of the outlet opening are connected to one another by a, for example cylindrical, side wall 150.
  • a connection device 111 for example a connecting piece, for connecting at least one horizontal feed line (not shown) for introducing the liquid flow in each case to the exit direction orthogonal entry direction ER arranged in the hollow body 101.
  • the deflection device 100 shown comprises a fixing device for fixing the hollow body 100 to a duct shaft opening (not shown).
  • the fixing device comprises a fixing section that can be inserted into the duct shaft opening 151 of the side wall 150 and an annular support device 131 fastened to the hollow body 100, in particular to the side wall 150, for support on an edge of the duct shaft opening.
  • the side wall 150 Adjacent to the outlet opening 121, the side wall 150 has an additional opening 121 for the liquid.
  • FIG.2 shows a schematic side view (top) and top view (bottom) of a hollow body 101 of a deflection device according to the invention.
  • FIG. 1 shows a schematic side view (top) and top view (bottom) of a hollow body 101 of a deflection device according to the invention.
  • FIG. 1 shows a schematic side view (top) and top view (bottom) of a hollow body 101 of a deflection device according to the invention.
  • an overall height GH of the hollow body 101 of, for example, 600 mm and an outer diameter AD of the side wall 150, in particular the fixing section 151 of the side wall 150, of, for example, 560 mm are marked.
  • the inlet diameters ED (labeled only by way of example) of the, for example circular, inlet openings 110 (labeled only by way of example) and their distribution on the circumference of the side wall 150 can be seen.
  • the side wall 150 comprises, for example, six inlet openings 110. Two inlet openings 110, each with an inlet diameter of, for example, 72 mm, are arranged, for example, with their respective center points at 20 ° and 340 ° on the circumference. Four further inlet openings 110, each with an inlet diameter of, for example, 115 mm, are arranged, for example, with their respective center points at 72 °, 144 °, 216 ° and 288 ° on the circumference of the side wall 150.
  • each entry opening 110 has an opening-free diffusion section 152 (only labeled as an example) of the side wall 150.
  • the total entry area of 479 cm 2 which results from the entry areas mentioned by way of example, is significantly smaller than the exit area of 2411 cm 2. , which is based on an example outer diameter OD of the side wall 150 of 560 mm and a wall thickness of the side wall 150 of, for example, 3 mm.
  • FIG.3 shows a further schematic side view of the hollow body 101 Figure 2 , In this side view, a support diameter AD of the support device 131 of, for example, 680 mm is marked.
  • a protrusion height UH of the hollow body 101 over an edge (not shown) of a sewer shaft opening, on which the support device 131 rests, is entered, for example, 240 mm. Furthermore, is a center distance MA of the center points of the inlet openings 110 is marked from the end side 104 of the hollow body, for example 120 mm. In addition, a thickness D of the end wall 140 and the support device 131 of 3 mm, for example, is shown.
  • FIG.4 shows a schematic, perspective illustration of the hollow body 101 Figure 2 .
  • FIG.5 shows a schematic side view (top) and top view (bottom) of a hollow body 101 according to the invention.
  • the hollow body 101 shown here differs from that in FIG Figure 2 shown hollow body 101 in the number, only labeled as an example in the inlet diameter ED 8) and the arrangement of the inlet openings 110 (only labeled as an example).
  • the hollow body 101 shown comprises, for example, five inlet openings 110.
  • one inlet opening 110 with an inlet diameter of, for example, 72 mm and 159.7 mm is arranged on the circumference, for example with its respective center point at 0 ° and 216 °.
  • Three further inlet openings 110, each with an inlet diameter of, for example, 115 mm, are arranged, for example, with their respective center points at 72 °, 144 ° and 288 ° on the circumference of the side wall 150.
  • each entry opening 110 has an opening-free diffusion section 152 (only labeled as an example) of the side wall 150.
  • the total entry area of 553 cm 2 which results from the entry areas mentioned by way of example, is significantly smaller than the exit area of 2411 cm 2 , which results from an example outer diameter OD of the side wall 150 of 560 mm and a wall thickness of the side wall 150 of for example, 3 mm.
  • FIG. 6 shows a further schematic side view of the hollow body 101 Figure 5 with an enlarged section A.
  • the features shown correspond to the features provided with the same reference symbols in FIG Figure 3 ,
  • FIG. 7 shows a schematic, perspective illustration of the hollow body 101 Figure 5 , The features shown correspond to the features provided with the same reference symbols in FIG Figure 4 ,

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)
EP18177624.6A 2018-06-13 2018-06-13 Dispositif de déviation transportable pour dévier un flux de liquide sous pression et procédés utilisant ce dispositif de déviation Active EP3581725B1 (fr)

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Application Number Priority Date Filing Date Title
EP18177624.6A EP3581725B1 (fr) 2018-06-13 2018-06-13 Dispositif de déviation transportable pour dévier un flux de liquide sous pression et procédés utilisant ce dispositif de déviation

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Application Number Priority Date Filing Date Title
EP18177624.6A EP3581725B1 (fr) 2018-06-13 2018-06-13 Dispositif de déviation transportable pour dévier un flux de liquide sous pression et procédés utilisant ce dispositif de déviation

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EP3581725A1 true EP3581725A1 (fr) 2019-12-18
EP3581725B1 EP3581725B1 (fr) 2020-04-29

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EP18177624.6A Active EP3581725B1 (fr) 2018-06-13 2018-06-13 Dispositif de déviation transportable pour dévier un flux de liquide sous pression et procédés utilisant ce dispositif de déviation

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1993534A (en) * 1934-05-07 1935-03-05 Edmund G Stoltz Back water valve for drains
WO2005038153A1 (fr) 2003-09-19 2005-04-28 Poetzsch Holger Procede et dispositif de protection contre les crues
EP1617124A1 (fr) * 2004-07-15 2006-01-18 Kessel GmbH Tuyau, élément d'égout ou regard et procédé de fabrication relatif
US20070215212A1 (en) * 2006-03-15 2007-09-20 Demeniuk Michael A Floor drain with incorporated flood prevention
DE202007011556U1 (de) 2007-08-17 2008-04-24 Küdde, Norbert Hochwasserschutzbox

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1993534A (en) * 1934-05-07 1935-03-05 Edmund G Stoltz Back water valve for drains
WO2005038153A1 (fr) 2003-09-19 2005-04-28 Poetzsch Holger Procede et dispositif de protection contre les crues
EP1617124A1 (fr) * 2004-07-15 2006-01-18 Kessel GmbH Tuyau, élément d'égout ou regard et procédé de fabrication relatif
US20070215212A1 (en) * 2006-03-15 2007-09-20 Demeniuk Michael A Floor drain with incorporated flood prevention
DE202007011556U1 (de) 2007-08-17 2008-04-24 Küdde, Norbert Hochwasserschutzbox

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