EP2014842A1 - Brandschutzmauer - Google Patents

Brandschutzmauer Download PDF

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Publication number
EP2014842A1
EP2014842A1 EP07110506A EP07110506A EP2014842A1 EP 2014842 A1 EP2014842 A1 EP 2014842A1 EP 07110506 A EP07110506 A EP 07110506A EP 07110506 A EP07110506 A EP 07110506A EP 2014842 A1 EP2014842 A1 EP 2014842A1
Authority
EP
European Patent Office
Prior art keywords
firewall
wall
fire
panels
panel
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
EP07110506A
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English (en)
French (fr)
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EP2014842B1 (de
Inventor
Denis Zago
Jules Mathieu
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ArcelorMittal Commercial Sections SA
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ArcelorMittal Commercial Sections SA
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by ArcelorMittal Commercial Sections SA filed Critical ArcelorMittal Commercial Sections SA
Priority to AT07110506T priority Critical patent/ATE461327T1/de
Priority to ES07110506T priority patent/ES2341582T3/es
Priority to DE602007005362T priority patent/DE602007005362D1/de
Priority to PL07110506T priority patent/PL2014842T3/pl
Priority to EP07110506A priority patent/EP2014842B1/de
Publication of EP2014842A1 publication Critical patent/EP2014842A1/de
Application granted granted Critical
Publication of EP2014842B1 publication Critical patent/EP2014842B1/de
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/92Protection against other undesired influences or dangers
    • E04B1/94Protection against other undesired influences or dangers against fire
    • E04B1/945Load-supporting structures specially adapted therefor

Definitions

  • the present invention relates to a fire wall, in particular a fire wall that can easily be integrated into a steel frame building, as well as components of a fire wall.
  • a fire wall is intended to stop or delay the advance of a fire in a building. According to French regulations currently in force, it must resist, in the laboratory, for a given time (generally 4 hours) under the conditions of a conventional fire and be impervious to hot gases. In addition, the temperature on the surface opposite the fire must not exceed 140 ° C on average and 180 ° C at an extreme point. In principle, the fire wall must extend beyond the roof and, in the case of a metal frame building, the deformation or collapse of the steel frame on the fire side must not result in the failure of the fire. firewall.
  • the first type is a firewall comprising a supporting structure of thin steel profiles coated with gypsum board and filled with mineral wool.
  • This type of firewall presents problems when it comes to ensuring its durability in case of deformation or collapse of the steel frame on the side of the fire.
  • the second type is a firewall that is molded between two independent load-bearing structures and is connected to them by fusible ties that will melt on the side of the wall exposed to the fire and remain intact on the opposite side of the fire. Therefore, if the load-bearing structure on the firewall side exposed to the fire collapses, this will not ruin the firewall. The latter is still supported by the fusible links, which attach it to the supporting structure located on the side of the firewall that is not exposed to fire.
  • a fire wall of the second type is marketed by the company YTONG under the name "fire wall with split metal structure.” It is a wall built with cellular concrete cladding slabs erected between split columns, whose spacing is only slightly larger than the thickness of the cladding slabs. All vertical joints between the cladding slabs are between the posts and are filled with rockwool. Horizontal joints include a tongue and groove system and must be fully bonded with a mortar.
  • YTONG fusible fasteners consist of fusing plates, which are fastened with nails either on the visible faces of the cladding slabs or on the horizontal contact surfaces between two cladding slabs, and which support behind the wings polls.
  • a major disadvantage of the split metal structure YTONG system is that the firewall must be erected before closing the building, as the cladding slabs must engage at the top between the split posts.
  • Another disadvantage of the split metal structure YTONG system is that the integration of large sliding fire doors in this type of firewall is almost impossible.
  • cladding slabs of cellular concrete are generally not allowed in agri-food buildings, given the constraints of hygiene.
  • a first object of the present invention is to make easier and more flexible the fire compartmentalisation of metal constructions. According to the invention, this objective is achieved by a fire wall according to claim 1.
  • a second object of the present invention is to provide a better anchoring system for firewalls.
  • Another object of the present invention is to provide fire resistant panels with a very compact sandwich structure, which make it possible to construct walls having a very high fire resistance (for example of the order of 4 hours and more).
  • Yet another object of the present invention is to provide a joint between two fire resistant panels which not only guarantees a solid assembly of the panels and excellent flame, smoke and hot gas tightness, but which also allows for easy replacement of a damaged panel in the wall.
  • the present invention provides a fire wall comprising: a wall constructed using fire resistant panels; an independent metallic support structure on each side of the wall; an anchoring system for each of the two supporting structures, with anchoring points between the wall and the supporting structure; and at least one fire detection means associated with each anchoring system so as to cause, in the event of a fire, a rupture of said anchoring points on the side of the wall which is exposed to the fire.
  • the spacing between the two supporting structures is equal to at least twice the thickness of a fire-resistant panel, the wall being arranged in the middle between the two supporting structures. Such spacing between the two carrier structures provides multiple benefits.
  • An anchoring point located at a certain height above the ground is advantageously designed so as to allow an increase in the spacing between the wall and the supporting structure of the order of one to several centimeters before being opposed to this increase by resuming a pulling effort.
  • Such an anchor point does not exert a tensile force on the wall, when one of the two load-bearing structures is subjected, under the load of the wind, to a bending which tends to increase the spacing between the bearing structure and the wall.
  • a preferred embodiment of an anchor comprises: a first horizontal attachment arm attached to one of the two supporting structures and provided with a first through hole for a pin; a second horizontal attachment arm attached to the wall and provided with a second through hole for a pin, the two holes being vertically superimposed.
  • a pin with a vertical axis is housed in the two holes and serves for the transmission of forces between the two attachment points. During this transmission of forces, the pin is essentially stressed in shear.
  • One of the two vertically superposed holes is advantageously an oblong hole.
  • one can adjust the point of attachment so as to tolerate an increase in the spacing between the wall and the supporting structure of the order of a few centimeters, before the pin is stressed in shear.
  • an oblong hole also allows easier mounting of the anchor points, because it compensates for unevenness in the spacing between the wall and the carrier structure.
  • the pin can also be arranged in the oblong hole so as to transmit a compression on the horizontal attachment arm fixed to the wall with low axial play and to transmit a traction on the latter with a much greater axial play.
  • the anchor point also has a fulcrum function between the wall and the supporting structure that connects.
  • an anchor in a preferred embodiment, includes a fuse element holding the pin in place in both holes. It will be appreciated that this fuse element must not participate in the transmission of a tensile force or compression by the anchor point, which naturally facilitates its dimensioning.
  • This anchor then advantageously comprises a spring element, which is associated with the pin so as to drive axially from its housing when the fuse element breaks, thus releasing the first of the second attachment arm.
  • the spring exerts a constant and well-defined force on the fuse element, which ensures a more accurate melting temperature.
  • the anchoring system may also comprise a system of rods adapted to occupy a first position, in which it holds in place the pins of at least two anchoring points in their respective holes, and a second position in which it releases these pins.
  • Actuating means are then associated with this system of rods to bring it from its first position to its second position.
  • actuating means are advantageously slaved to a triggering means.
  • the latter is for example a fuse element, another type of fire detector, a fire extinguishing system (for example a sprinkler system) or manual triggering means, which can be actuated by firefighters.
  • the fire-resistant panels are preferably lightweight sandwich-structure panels which are provided with an outer facing formed of steel sheets.
  • the present invention also relates to a new type of very compact sandwich panels, which make it possible to construct walls having a very high fire resistance (for example of the order of 4 hours and more).
  • a fire resistant panel has a central core comprising at least one gypsum board and a thermal insulation layer based on cellular glass adhered to each face of the central core.
  • venting means are arranged between the central core and each thermal insulation layer, so as to evacuate the steam formed during the heating of the plaster of the central core to the joints between the panels. In this way, a controlled evacuation of the water vapor formed during the heating of the plaster of the central core is avoided, and it is avoided to explode the sandwich panel under the effect of an excessive increase in pressure.
  • the thermal insulation layers are preferably fixed by means of a discontinuous bonding on the central core, so that there remain gaps between the bonded regions. These voids then form venting means able to evacuate the steam.
  • steel sheets are fixed by surface bonding to the thermal insulation layers to form an outer face of the panel.
  • This steel sheet forming the outer facing is preferably a thin sheet of carbon steel coated with an alloy composed of aluminum and zinc.
  • a preferred alloy comprises for example between 53% and 57% of aluminum, 41% and 46% of zinc and 1% and 2% of silicon.
  • the steel sheet forming the siding normally has a thickness of 0.6 to 1.3 mm. It will be noted that the aforementioned alloy significantly and unexpectedly increases the fire resistance of the sandwich panels. We think we can explain this surprising phenomenon as follows.
  • the central core of the panel advantageously comprises a load-bearing panel based on fiber-reinforced cement; and on each side of the carrier panel, a gypsum board glued to the carrier panel.
  • the carrier panel has a deformation under heat lower than the drywall.
  • This load-bearing panel serves as a structural support for plasterboard and is intended to keep them in place as long as possible in case of fire.
  • a panel according to the invention advantageously comprises a frame formed with mineral plates bonded to the edges of the sandwich structure.
  • This frame is preferably formed with plates based on fiber reinforced cement.
  • the external cladding formed of steel sheets forms low rims along said frame, so as to staple the frame, without constituting a thermal bridge. It will be appreciated that such a frame substantially enhances the mechanical stability of the edges of the panel. In case of fire, it therefore contributes to a better tightness to flames, fumes and hot gases at the joints between the panels.
  • the frame advantageously comprises holes for evacuating the steam formed during the heating of the plaster of the central core through the joints between the panels.
  • the present invention also presents a new type of seals for the assembly of fireproof panels in a wall.
  • a joint between two panels is formed by a key-fitting side of a first plate which bears on a side without a connecting key of a second plate.
  • This joint is closed on each side by an omega profile forming a central channel flanked by two flanges.
  • the center channel is secured with lag bolts on the fitting key.
  • the soles are fixed using self-drilling screws on the outer face formed of steel sheets.
  • a plate is attached to the omega profile to cover the central channel. It is advantageously a carbon steel plate coated with an alloy composed of aluminum and zinc, as described above.
  • An intumescent strip is preferably attached to the steel plate in the central channel of the omega profile.
  • This method of joint construction not only guarantees a solid assembly of the panels and an excellent seal of the joints to flames, fumes and hot gases. It also allows easy replacement of a damaged panel in the wall. After disassembling omega dishes and profiles, you can simply remove a damaged panel from the wall and replace it with a new panel.
  • the fire resistant panels are advantageously rectangular panels with a length to height ratio of 2 to 1 and which preferably have a length of less than 3 m.
  • the Fig. 1 shows a section through a metal frame building at a fire wall 10 comprising a wall 12 constructed using fire resistant panels 14.
  • the metal frame of the firewall building is divided into two structurally independent metal supporting structures 16 and 16 '. This means that there are no structural links between the left bearing structure 16 and the right bearing structure 16 '. Therefore, a collapse of the left carrier structure 16 will not result in the ruin of the right carrier structure 16 'and vice versa.
  • Each of the two supporting structures 16, 16 ' comprises vertical posts 18, 18' supporting beams 20, 20 'carrying a roof 22, 22'. In fact, it is two independent roofs 22, 22 ', which are separated by an overflow 24 of the wall 12 on the roof and connected to this protrusion 24 sealingly.
  • These bearing structures 16, 16 'could also comprise beams carrying an intermediate floor (not shown) on one or both sides of the wall 12.
  • each supporting structure 16, 16' may further comprise elements of vertical and horizontal bracing (not visible) and rails 26, 26 ', that is to say horizontal sections fixed to the vertical posts 18, 18' of a bearing structure 16, 16 'and serving in particular for anchoring of the wall 12 (see eg. Fig. 3 ).
  • anchoring system with anchoring points 28, 28' between said wall and the respective bearing structure 16, 16 '.
  • anchor points 28, 28 ' are slaved to a fire detection means, which is capable of provoking, in the event of a fire, a break in the anchoring points on the side. wall 12 which is exposed to fire.
  • a fire detection means which is capable of provoking, in the event of a fire, a break in the anchoring points on the side. wall 12 which is exposed to fire.
  • the wall 12 is separated from the supporting structure 16, 16 'of the fire side, but is still supported by the bearing structure 16, 16' of the side opposite to the fire. Therefore, the carrier structure 16, 16 'exposed to the fire can collapse without causing the ruin of the wall 12.
  • This gap “D” is normally equal to two to three times the thickness "E" of a fire-resistant panel (that is to say it is preferably: 2 ⁇ D / E ⁇ 3). On the Fig. 1 this "D / E” ratio is for example equal to 2.5. In absolute figures, the distance “D” preferably measures between 30 cm and 60 cm.
  • This gap "D" rather important between the two supporting structures 16, 16 ' provides multiple advantages. It allows for example to easily erect the wall 12 when the bearing structures 16, 16 'are already in place. This is particularly interesting when large industrial halls are being built and it is not yet known what fire compartmentalization should be planned. With a system according to the present invention, it is then sufficient to divide the metal framework of the hall into several independent supporting structures with a spacing "D" between two adjacent supporting structures which is equal to at least twice the thickness "E" d a fire-resistant panel, to be able to easily erect, as needed and at any time, a wall 12 with fire-resistant panels 14 between two independent bearing structures, to form a fire compartment.
  • the anchoring point 28 mainly comprises two brackets 34, 36, a pin 38, a fuse element 40 and a spring 42.
  • the first bracket 34 is fixed to the post 18 and comprises a first horizontal attachment arm 44 which extends in the direction of the wall 12.
  • the second bracket 36 is fixed to the wall 12 and comprises a second horizontal attachment arm 46 which extends towards the pole 18 and which passes below the first attachment arm 44.
  • Each two attachment arms 44, 46 comprises a through hole 48, 50. These through holes 48, 50 are vertically superimposed.
  • the pin 38 passes through the two through holes 48, 50 having its central axis substantially vertical.
  • bracket 52 which is preferably supported by the first bracket 34 and extends above the first attachment arm 44 in the axis of the through hole 48.
  • the connection between the bracket 52 and the fuse element 40 and the connection between the fuse element 40 and the pin 38 are preferably cylindrical joints 54, 56, so as to prevent the pin 38 from urging the element fuse 40 in flexion, when the post 18 moves towards or away from the wall 12.
  • the spring 42 bears with one end on a shoulder 58 of the pin 38, and with the other end on the underside of the second arm 46. It is pre-compressed so as to exert on the fuse element 40 a predetermined tensile force.
  • the manufacturer of the fuse element 40 generally indicates a minimum tensile stress and a maximum tensile force for which it ensures the rupture of the fuse element 40 at its nominal temperature.
  • the prestressed spring 42 also produces an elastic ejection force of the pin 38, when the fuse element 40 breaks in the event of a fire, thus reducing the risk that the pin 38 remains stuck in the through holes 48, 50.
  • the fusible element 40 typically a nominal breaking temperature between 120 ° C and 200 ° C and is for example dimensioned for a minimum tensile force of 1 kg and maximum of 10 kg. It is also possible to work with fusible elements 40 at different breaking temperatures. The fusible elements 40 of the anchoring points located closer to the ground will then have a lower breaking temperature than the fusible elements 40 of the anchor points located closer to the roof 22, 22 '.
  • the Fig. 3 shows an alternative execution of anchor points.
  • These anchoring points 228, 228 'of the wall 12 are not fixed on the posts 18, 18', but on the rails 26, 26 '.
  • the anchor point 228 comprises a plate 234, which is fixed on the rail 26 and which forms said first horizontal attachment arm 44 which extends towards the wall 12.
  • the first attachment arm 44 includes a round through hole 248, but the second attachment arm 46 includes an elongate through hole 250 with a front edge 252 and a rear edge 254 axially spaced apart.
  • the pin 38 which passes through the round hole 248 with a small clearance, is arranged in the oblong hole 250 at a distance from the front edge 252.
  • the oblong passage hole 250 allows easy mounting of the anchoring points 228, 228 'because it makes it easy to compensate for unevenness in the spacing between the wall 12 and the carrier structure 16, resp. 16 '.
  • an anchor point magnitude 228, 228 ' makes it possible to cover a large range of spacings between the wall 12 and the carrier structure 16, resp. 16 '.
  • support points may be provided between the wall 12 and each of the supporting structures 16, 16 '. These bearing points essentially take up compression forces and are not able to transmit a tensile force between the wall 12 and one of the supporting structures 16, 16 '.
  • a support function can also be integrated in the anchor points 228, 228 '.
  • the pin 38 which passes through the round through hole 248 with a small clearance, is arranged in the oblong through hole 250 resting on the rear edge 254, respectively resting on a support piece (not shown ) which is screwed or welded to the second attachment arm 46, after mounting the anchor point 228, 228 '. It should be noted that the solution with oblong through hole 250 naturally also applies to the anchoring points 28, 28 'of the Fig. 2 .
  • the fire resistant panels 14 are preferably rectangular panels with a length-to-height ratio of 2 to 1, as shown in FIG. Fig. 4 .
  • a typical length of a panel would for example be 2.5 m.
  • their thickness is in principle between 15 cm and 18 cm.
  • the fire resistant panels 14 are preferably arranged horizontally. A vertical arrangement is not excluded, however.
  • Fig. 7 a preferred embodiment of the fire resistant panels 14 will be described.
  • These are lightweight panels with a sandwich structure. They more particularly comprise a central core 62 on plaster base and, on each side of the central core 62, a thermal insulation layer 64, 64 'and an outer face formed of sheets 60, 60'.
  • the thermal insulation layer 64, 64 ' is preferably composed of aluminosilicate cell glass plates without addition of binders, having a thermal conductivity of about 0.04 W / mK, a density of 120 kg / m 3 and a compressive strength of 0.7 N / mm 2 .
  • Such plates which are completely inorganic and are formed without binders, are for example sold by the firm "PITTSBURGH CORNING EUROPE SA" under the designation "FOAMGLAS ® T4". To achieve a fire resistance of 4 hours, plates with a thickness of 50 mm will normally be used.
  • the central core 62 comprises a load-bearing panel 66 based on fiber-reinforced cement, on which are glued gypsum boards 68, 68 '.
  • the carrier panel 66 has a thickness of the order of 12 mm and a density of about 1100 kg / m3. It may be a poor thermal insulator (thermal conductivity of the order of 0.25 W / mK) but must be noncombustible and have good mechanical strength at high temperature.
  • This carrier panel 66 serves in effect structural support for gypsum boards 68, 68 'and has the purpose of keeping them in place as long as possible in case of fire.
  • the sheets 60, 60 'forming the outer face are preferably thin sheets (thickness 0.6 to 1.3 mm) of carbon steel coated with an alloy composed of aluminum and zinc in substantially equal proportions and a trace of silicon.
  • Such sheets are for example marketed by ARCELOR MITTAL under the name ALUZINC ®.
  • the ALUZINC® coating is an alloy comprising approximately 55% aluminum, 43.4% zinc and 1.6% silicon.
  • an adhesive composed of an organic elastic binder for example a resin of the family of polyols containing usual amounts of plasticizers, adhesion promoters, stabilizers, plasticizers, is preferably used.
  • catalysts to which is added a hydrated inorganic filler, for example trihydrated alumina, and a polymerization reagent.
  • Such elastic adhesives are for example described in the patent application EP 1283310 .
  • the organic binder must provide sufficient elasticity to compensate for or absorb the deformations of the panel due to handling, transport, assembly and, above all, to compensate as much as possible for the differential expansions of the different materials of the panel under the effect of heat 'fire.
  • the hydrated mineral filler slows the heating of the glue by evaporating slowly under the action of fire heat. Then, the organic binder is charred, which also seems to retard the heating of the panel 14.
  • a continuous layer of adhesive 70, 70 is preferably used between gypsum board 68, 68 'and carrier panel 66, as well as between thermal insulation layers 64, 64' and sheets 60, 60 '.
  • a continuous layer of adhesive 70, 70 is preferably used between gypsum board 68, 68 'and carrier panel 66, as well as between thermal insulation layers 64, 64' and sheets 60, 60 '.
  • gypsum boards 68, 68 'and heat insulating layers 64, 64' is preferably used between a discontinuous layer of glue 74, 74 '(discontinuous gluing).
  • This layer 74, 74 ' is either divided by streaks, or composed of isolated pads, so that there remain gaps between the central core 62 and each thermal insulation layer 64, 64' forming means of vent capable of evacuating water vapor, formed during the heating of the gypsum boards 68, 68 ', towards the joints between the panels 14.
  • This controlled evacuation of water vapor is all the more important that the thermal insulation layers 64, 64 'of cellular glass are almost impermeable to water vapor.
  • the panel 14 comprises a frame 76, which is composed of mineral plates bonded to the edges of its sandwich structure.
  • the carrier panel 66 of the central core 62 fiber-reinforced cement-based mineral boards are preferably used because such boards have excellent high temperature strength.
  • the adhesive used to bond the mineral plates of the frame 76 to the edges of the sandwich structure of the panel 14 is identical to the glue used for assembling the sandwich structure.
  • the facing sheets 60, 60 ' form flanges 80, 80' along the frame 76, so as to staple the latter on the sandwich structure. These flanges 80 have only a small height so as not to form a thermal bridge towards the thickness of the wall 12.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Building Environments (AREA)
  • Insulated Conductors (AREA)
EP07110506A 2007-06-19 2007-06-19 Brandschutzmauer Not-in-force EP2014842B1 (de)

Priority Applications (5)

Application Number Priority Date Filing Date Title
AT07110506T ATE461327T1 (de) 2007-06-19 2007-06-19 Brandschutzmauer
ES07110506T ES2341582T3 (es) 2007-06-19 2007-06-19 Muro cortafuegos.
DE602007005362T DE602007005362D1 (de) 2007-06-19 2007-06-19 Brandschutzmauer
PL07110506T PL2014842T3 (pl) 2007-06-19 2007-06-19 Ściana przeciwpożarowa
EP07110506A EP2014842B1 (de) 2007-06-19 2007-06-19 Brandschutzmauer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP07110506A EP2014842B1 (de) 2007-06-19 2007-06-19 Brandschutzmauer

Publications (2)

Publication Number Publication Date
EP2014842A1 true EP2014842A1 (de) 2009-01-14
EP2014842B1 EP2014842B1 (de) 2010-03-17

Family

ID=38666831

Family Applications (1)

Application Number Title Priority Date Filing Date
EP07110506A Not-in-force EP2014842B1 (de) 2007-06-19 2007-06-19 Brandschutzmauer

Country Status (5)

Country Link
EP (1) EP2014842B1 (de)
AT (1) ATE461327T1 (de)
DE (1) DE602007005362D1 (de)
ES (1) ES2341582T3 (de)
PL (1) PL2014842T3 (de)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112746689A (zh) * 2021-01-15 2021-05-04 张建新 基于隔板分隔的耐火墙支撑装置

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ES2637466B2 (es) * 2016-12-20 2018-06-22 Universidad De Málaga Procedimiento de control del colapso de estructuras de establecimientos industriales en caso de incendio

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE10040699A1 (de) * 2000-08-17 2002-03-07 Jochen Brill Stahl Und Ind Gmb Brandwand-Konstruktion vorzugsweise zur Abtrennung von Hochregallagern oder von sonstigen, vorzugsweise hohen Gebäuden in getrennte Brandabschnitte

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE10040699A1 (de) * 2000-08-17 2002-03-07 Jochen Brill Stahl Und Ind Gmb Brandwand-Konstruktion vorzugsweise zur Abtrennung von Hochregallagern oder von sonstigen, vorzugsweise hohen Gebäuden in getrennte Brandabschnitte

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112746689A (zh) * 2021-01-15 2021-05-04 张建新 基于隔板分隔的耐火墙支撑装置
CN114703988A (zh) * 2021-01-15 2022-07-05 张建新 基于耐火墙支撑装置
CN114856022A (zh) * 2021-01-15 2022-08-05 张建新 耐火墙支撑装置
CN114856022B (zh) * 2021-01-15 2024-02-02 湖南省醴陵市马恋耐火泥有限公司 耐火墙支撑装置
CN114703988B (zh) * 2021-01-15 2024-03-22 张建新 基于耐火墙支撑装置

Also Published As

Publication number Publication date
EP2014842B1 (de) 2010-03-17
DE602007005362D1 (de) 2010-04-29
PL2014842T3 (pl) 2010-08-31
ATE461327T1 (de) 2010-04-15
ES2341582T3 (es) 2010-06-22

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