06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Metal modular formwork for the construction of walls of
concrete and metal components thereof; building panels of
metal. Non-metallic modular formwork for the construction of walls
of concrete; panels (building -) not of metal; plywood for
building. Rental of modular formwork for the construction of walls of
concrete and components thereof; rental of building panels;
rental of plywood for building.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Metal modular formwork for the construction of walls of concrete; building panels of metal Non-metallic modular formwork for the construction of walls of concrete; building panels, not of metal; plywood for building Rental of modular formwork for the construction of walls of concrete; rental of building panels; rental of plywood for building
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
(1) Metal modular formwork for the construction of walls of concrete; building panels of metal.
(2) Non-metallic modular formwork for the construction of walls of concrete; building panels, not of metal; plywood for building. (1) Rental of modular formwork for the construction of walls of concrete; rental of building panels; rental of plywood for building.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Metal modular formwork for the construction of walls of concrete and metal components thereof; Building panels of metal. Non-Metallic modular formwork for the construction of walls of concrete; Panels (Building -) not of metal; Plywood for building. Rental of modular formwork for the construction of walls of concrete and components thereof; Rental of building panels; Rental of plywood for building.
12 - Land, air and water vehicles; parts of land vehicles
19 - Non-metallic building materials
Goods & Services
Interior panels for land vehicles, namely, floor panels,
body panels, door panels and roof panels; interior panels
for water vehicles, namely, floor panels, body panels, door
panels and roof panels. Building materials, namely, composite panels composed
primarily of nonmetal materials; building structural panels,
not of metal; non-metal floor panels; non-metal subfloor
panels; non-metal door panels; non-metal fence panels;
non-metal ceiling panels; non-metal roofing panels;
non-metallic wall panels.
7.
PANEL FOR CONCRETE FORMWORK AND PRODUCTION METHOD THEREOF
Panel for concrete formwork, comprising a polymer core (1) and a reinforcement layer (2) on at least one of the sides of the core (1). The reinforcement layer (2) comprises woven glass fibre. The core (1) comprises thermosetting polymer waste, a glass fibre filler, and a thermosetting resin, wherein the glass fibre filler is a glass fibre filler present in the thermosetting polymer waste, and/or a glass fibre filler independent of the thermosetting polymer waste. The invention also relates to a method for producing a panel like that described above.
E04G 9/05 - Forming boards or similar elements the form surface being of plastics
B32B 5/02 - Layered products characterised by the non-homogeneity or physical structure of a layer characterised by structural features of a layer comprising fibres or filaments
B29C 70/02 - Shaping composites, i.e. plastics material comprising reinforcements, fillers or preformed parts, e.g. inserts comprising combinations of reinforcements and fillers incorporated in matrix material, forming one or more layers, with or without non-reinforced or non-filled layers
B29C 70/18 - Fibrous reinforcements only characterised by the structure of fibrous reinforcements using fibres of substantial or continuous length in the form of a mat, e.g. sheet moulding compound [SMC]
B29B 17/00 - Recovery of plastics or other constituents of waste material containing plastics
12 - Land, air and water vehicles; parts of land vehicles
19 - Non-metallic building materials
Goods & Services
(1) Interior panels for land vehicles, namely, floor panels, body panels, door panels and roof panels; interior panels for water vehicles, namely, floor panels, body panels, door panels and roof panels.
(2) Building structural panels, not of metal and not of wood.
12 - Land, air and water vehicles; parts of land vehicles
19 - Non-metallic building materials
Goods & Services
Interior panels for land vehicles, namely, floor panels, body panels, door panels and roof panels; interior panels for water vehicles, namely, floor panels, body panels, door panels and roof panels Building structural panels, not of metal and not of wood
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Measuring, detecting, monitoring and controlling devices;
sensors, detectors and monitoring instruments; Internet of
Things [IoT] sensors; software for monitoring, analysing,
controlling and running physical world operations;
downloadable application software; all the aforementioned
related to concrete for construction. Software development, programming and implementation;
software as a service [SaaS]; software as a service [SaaS]
featuring software for machine learning; platform as a
service [PaaS]; maintenance and repair of software;
technical data analysis; electronic data storage;
engineering services; all the aforementioned related to
concrete for construction.
12 - Land, air and water vehicles; parts of land vehicles
19 - Non-metallic building materials
Goods & Services
Interior panels for land vehicles, namely, floor panels, body panels, door panels and roof panels; Interior panels for water vehicles, namely, floor panels, body panels, door panels and roof panels. Building materials, namely, composite panels composed primarily of nonmetal materials; Building structural panels, not of metal; Non-metal floor panels; Non-metal subfloor panels; Non-metal door panels; Non-metal fence panels; Non-metal ceiling panels; Non-metal roofing panels; Non-metallic wall panels.
Building materials, not of metal, namely, composite panels, wooden panels, panels of a mixture of wood and composites, panels of a mixture of wood and plastics
13.
SELF-CLIMBING MODULAR SYSTEM FOR THE PROTECTION OF CIVIL WORKS AND BUILDINGS UNDER CONSTRUCTION
APLICACIONES TÉCNICAS Y TECNOLÓGICAS PROMETAL S.L. (Spain)
Inventor
Faz Dominguez, Juan Jose
Abstract
The invention relates to a self-climbing modular system for the protection of civil works and buildings under construction, comprising two bases (2) fixed in cantilever with respect to a slab (F) level, with each base being provided at its free end with a support (5) on which an upright (1) is arranged with the possibility of guided vertical movement with respect to the base (2) and the slab (F) level on which the base (2) is fixed, a plurality of guard rails (3) articulated at their ends and linking together two uprights (1) of a single module or of contiguous modules located at the same slab (F) level, and lifting means (M) for independently lifting the uprights (1) between two slabs (F1, F2) located at two different levels, such that, upon actuation of said lifting means (M), the corresponding upright (1) rises in a unidirectional manner due to the action of the corresponding support (5).
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Measuring, detecting, monitoring and controlling devices, namely concrete curing monitoring devices; sensors, detectors and monitoring instruments for measuring concrete properties during curing and for transmitting them to a gateway; downloadable software for monitoring, analysing and controlling and running concrete properties during curing; recorded software for monitoring, analysing and controlling and running concrete properties during curing; downloadable application software for monitoring, analysing and controlling concrete properties during curing; all the aforementioned related to concrete for construction. (1) Software development, programming and implementation in the field of concrete curing monitoring; software as a service (SaaS) featuring software for monitoring, analysing and controlling concrete properties during curing; software as a service (SaaS) featuring software for machine learning in the field of concrete curing monitoring; platform as a service (PaaS) featuring computer software platforms for monitoring, analysing and controlling concrete properties during curing; maintenance and repair of computer software; technical data analysis in the field of concrete curing monitoring; electronic data storage related to concrete curing monitoring; engineering services in the field of concrete curing monitoring; all the aforementioned related to concrete for construction.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Concrete curing monitoring devices being electronic apparatus for testing the curing and resistance of concrete; Electric sensors, for detecting, measuring and monitoring concrete properties during curing and wireless transmitters for transmitting data relating thereto to a gateway; Downloadable software for monitoring, analysing and controlling concrete properties during curing; Recorded software for monitoring, analysing and controlling concrete properties during curing; Downloadable application software for monitoring, analysing and controlling concrete properties during curing; all the aforementioned related to concrete for construction. Software development, programming and implementation in the field of concrete curing monitoring; Software as a service (SAAS) featuring software for monitoring, analysing and controlling concrete properties during curing; Software as a service (SAAS) featuring software using artificial intelligence for machine learning in the field of concrete curing monitoring; Platform as a service (PAAS) featuring computer software platforms for monitoring, analysing and controlling concrete properties during curing; Maintenance and repair of computer software; Technical data analysis being industrial research services in the field of concrete curing monitoring; Electronic data storage related to concrete curing monitoring; Engineering services in the field of concrete curing monitoring; all the aforementioned related to concrete for construction.
A lifting hook including a fixed portion and a moving portion coupled to the fixed portion, the moving portion being pivotable between a locking position in which the moving portion retains a profile of a formwork panel housed in a housing of the fixed portion, and a release position in which the profile of the formwork panel can be introduced into or extracted from the housing. The lifting hook also includes a pushing part coupled to the fixed portion which pushes the moving portion when the pushing part is pulled.
Lifting hook (1) comprising a fixed portion (2) and a moving portion (3) coupled to the fixed portion (2), the moving portion (3) being pivotable between a locking position in which the moving portion (3) retains a profile (70) of a formwork panel (7) housed in a housing (20) of the fixed portion (2), and a release position in which the profile (70) of the formwork panel (7) can be introduced into or extracted from the housing (20). The lifting hook (1) also comprises a pushing part (4) coupled to the fixed portion (2) which pushes the moving portion (3) when said pushing part (4) is pulled, and a pulling element (6) coupled to the pushing part (4) so that an operator can pull said pulling element (6) in order to pull the pushing part (4).
B66C 1/36 - Crane hooks with means, e.g. spring-biased detents, for preventing inadvertent disengagement of loads
B66C 1/62 - Load-engaging elements or devices attached to lifting, lowering, or hauling gear of cranes, or adapted for connection therewith for transmitting forces to articles or groups of articles by mechanical means comprising article-engaging members of a shape complementary to that of the articles to be handled
06 - Common metals and ores; objects made of metal
Goods & Services
Metal construction materials, such as a modular formwork of metal and parts and components thereof of metal, namely, modular shuttering of metal for concrete
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Measuring, detecting, monitoring and controlling devices; Sensors, detectors and monitoring instruments; Internet of Things [IoT] sensors; Software for monitoring, analysing, controlling and running physical world operations; Downloadable application software; all the aforementioned related to concrete for construction. Software development, programming and implementation; Software as a service [SaaS]; Software as a service [SaaS] featuring software for machine learning; Platform as a Service [PaaS]; Maintenance and repair of software; Technical data analysis; Electronic data storage; Engineering services; all the aforementioned related to concrete for construction.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
Goods & Services
Protective screens of metal for safety purposes used in the
construction of buildings. Safety mesh made of plastic materials for construction
purposes.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
Goods & Services
(1) Protective screens of metal for safety purposes used in the construction of buildings.
(2) Safety mesh made of plastic materials for construction purposes.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
Goods & Services
Protective screens of metal for safety purposes used in the construction of buildings to hold mesh industrial safety barriers Mesh industrial safety barriers made of plastic materials for construction purposes
An anchor for a vertical formwork having two formwork panels facing one another. The anchor is suitable for being fixed to one of the formwork panels. The anchor includes a housing for receiving a part of a tie rod fixing the two formwork panels and a single sealing element configured for sealing the anchor with respect to the formwork panel in which it is fixed and with respect to the tie rod housed in the housing of the anchor.
06 - Common metals and ores; objects made of metal
Goods & Services
(1) Modular formwork made of metal for the construction of concrete walls and their metallic components, namely metal panels, metal ties, metal nuts and metal clamps.
30.
Vertical formwork anchor with fixing key to fix to a vertical formwork panel
According to one embodiment an anchor for a vertical formwork is provided that includes a fixed part suitable for being fixed to a formwork panel and fixing means for fixing the fixed part to the formwork panel. The fixing means includes a fixing key suitable for being housed in a hole of the formwork panel, the fixing key comprising an off-centered stop with respect to the axis of rotation of the fixing key, such that in a first angular position the off-centered stop of the fixing key can be introduced in the hole of the formwork panel and in a second angular position the off-centered stop is retained by the formwork panel, and therefore the anchor is fixed to the formwork panel.
A perimeter protection system for protecting operators against lateral falling when installing formwork panels in a horizontal formwork system. According to one embodiment the perimeter protection system includes a perimeter protection structure configured for being fixed, in a working position, to the horizontal formwork system, and at least one auxiliary device configured for being fixed to the horizontal formwork system and for fixing the perimeter protection structure to the horizontal formwork system. The auxiliary device includes guiding means collaborating with a guide of the perimeter protection structure for positioning the perimeter protection structure in an initial assembly position. In the initial assembly position the structure is configured to be raised up to an intermediate position where it is permitted to swing until it is positioned in the working position.
A perimeter protection system for protecting operators against lateral falling when installing formwork panels in a horizontal formwork system. According to one embodiment the perimeter protection system includes a perimeter protection structure configured for being fixed, in a working position, to the horizontal formwork system, and at least one auxiliary device configured for being fixed to the horizontal formwork system and for fixing the perimeter protection structure to the horizontal formwork system. The auxiliary device includes guiding means collaborating with a guide of the perimeter protection structure for positioning the perimeter protection structure in an initial assembly position. In the initial assembly position the structure is configured to be raised up to an intermediate position where it is permitted to swing until it is positioned in the working position.
According to one embodiment a rear anchor assembly for a vertical formwork is provided that includes a dome plate having a spherical-shaped central section. The dome plate has an opening that extends through the spherical-shaped central section. The rear anchor assembly also includes a nut with a threaded hole configured for housing a threaded end of a tie rod. The nut includes a spherical portion arranged in the opening of the dome plate. The spherical portion of the nut and the spherical-shaped central section of the dome plate are coupled like a ball and socket joint. The rear anchor assembly also includes a support plate configured for being fixed to a rear formwork panel, the support plate including a housing in which the dome plate is arranged, the dome plate having freedom of radial movement with respect to the support plate inside the housing.
Anchor assembly for a vertical formwork that according to one embodiment includes a front anchor element and a tie rod having a first end that is housed in the front anchor element. The front anchor element and the first end of the tie rod are configured for fixing the front anchor element in different axial positions of the first end of the tie rod, such that when the tie rod is arranged in a fitting angular position it can move axially with respect to the front anchor, and when the tie rod is arranged in a fixing angular position the tie rod cannot move axially with respect to the front anchor. According to some embodiments the front anchor element also includes blocking means configured for blocking the rotation of the tie rod when it is arranged in the fixing angular position.
According to one embodiment a vertical formwork is provided that includes at least one front formwork panel and one rear formwork panel that are arranged facing one another. The vertical form work also includes a rear anchor fixed to the rear panel, a front anchor fixed to the front formwork panel, and one tie rod (6) fixed to the front anchor and to the rear anchor. The rear anchor includes a support configured to be fixed to the rear formwork panel, and a nut coupled to said support. The nut includes a threaded hole configured for housing the threaded end of a tie rod. The threaded hole of the nut includes a first segment with an internal thread with a first core diameter and a second segment with an internal thread with a second core diameter, the first core diameter being greater than the second core diameter.
According to one embodiment a vertical formwork is provided that includes at least a front formwork panel and a rear formwork panel facing one another, a threaded tie rod, a spacing tube, a front anchor, and a rear anchor. The front anchor includes a nut and a stop element passed through by the tie rod arranged between the spacing tube and the nut, the stop element acting as a stop of the spacing tube in the final assembly position. The stop element is a tube capable of swiveling in the housing together with the tie rod during assembly and does not directly abut with the front formwork panel when it reaches the final assembly position, such that the stop element cannot move beyond its final assembly position.
According to one embodiment a vertical formwork is provided that includes at least a front formwork panel and a rear formwork panel facing one another, a threaded tie rod, a spacing tube, a front anchor, and a rear anchor. The front anchor includes a nut and a stop element passed through by the tie rod arranged between the spacing tube and the nut, the stop element acting as a stop of the spacing tube in the final assembly position. The stop element is a tube capable of swiveling in the housing together with the tie rod during assembly and does not directly abut with the front formwork panel when it reaches the final assembly position, such that the stop element cannot move beyond its final assembly position.
According to one embodiment an anchor for a vertical formwork is provided that includes a fixed part suitable for being fixed to a formwork panel and fixing means for fixing the fixed part to the formwork panel. The fixing means includes a fixing key suitable for being housed in a hole of the formwork panel, the fixing key comprising an off-centered stop with respect to the axis of rotation of the fixing key, such that in a first angular position the off-centered stop of the fixing key can be introduced in the hole of the formwork panel and in a second angular position the off-centered stop is retained by the formwork panel, and therefore the anchor is fixed to the formwork panel.
An anchor for a vertical formwork having two formwork panels facing one another. The anchor is suitable for being fixed to one of the formwork panels. The anchor includes a housing for receiving a part of a tie rod fixing the two formwork panels and sealing means configured for sealing the anchor with respect to the formwork panel in which it is fixed and with respect to the tie rod housed in the housing of the anchor.
A climbing shoe for fixing a climbing scaffold to a concrete section. According to one embodiment the climbing shoe includes a first part including clamps configured for securing a track of the climbing scaffold and allowing the guided movement of the track while the climbing scaffold climbs in a substantially vertical direction. The climbing shoe includes a second part fixed to the concrete section, the first part being coupled to the second part. The first part and the second part are coupled to one another by means of a transverse guide arranged in one of said first and second parts and at least one hook surrounding the transverse guide arranged in the other one of said first and second parts, the hook and the transverse guide being able to slide with respect to one another for laterally disassembling the first part with respect to the second part.
According to one embodiment a horizontal formwork system is provided that includes a pair of parallel longitudinal beams on which a safety means is coupled for protecting against falling. The safety means includes a safety structure that is located below the formwork panels. The safety structure at least partially covers a gap existing immediately after a last assembled formwork panel and displacement means for moving the safety structure in a longitudinal direction along a length of the longitudinal beams. The displacement means is configured to be operated on by an operator allow to move the safety structure to cover the gap immediately after the last assembled formwork panel. A safety method for installing formwork panels is also provide that may include the steps of assembling at least one guide to the corresponding longitudinal beam and coupling a safety structure having at least one guided element to the longitudinal beams through a guide, and sliding the safety structure along the guide to cover the gap.
E04H 1/00 - Buildings or groups of buildings for dwelling or office purposesGeneral layout, e.g. modular co-ordination or staggered storeys
E04G 11/38 - Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces for plane ceilings of concrete
E04G 21/32 - Safety or protective measures for persons during the construction of buildings
E04G 11/52 - Girders, beams, or the like as supporting members for forms of several units arranged one after another
E04G 11/54 - Girders, beams, or the like as supporting members for forms of extensible type, with or without adjustable supporting shoes, fishplates, or the like
43.
Horizontal formwork allowing for extension of support base
A horizontal formwork is disclosed that includes a support base and a plurality of formwork panels that are supported thereon. The support base includes a plurality of basic grids that each have four heads arranged at the vertices of the basic grid. Two main beams are arranged parallel to one another, and two edge beams arranged parallel to one another and perpendicular to the main beams. Each basic grid also includes central beams which are arranged parallel to the edge beams and supported on the main beams. The main beams include housings adapted for receiving an end of a respective central beam. At least one of the basic grids includes at least one main beam having support sections for additional beams for supporting the formwork panels.
E04G 11/38 - Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces for plane ceilings of concrete
E04G 11/50 - Girders, beams, or the like as supporting members for forms
E04G 11/48 - Supporting structures for shutterings or frames for floors or roofs
E04G 25/06 - Shores or strutsChocks telescopic with parts held together by positive means
Vertical formwork (1) comprising at least one front formwork panel (2) and one rear formwork panel (3) which are arranged facing one another, one rear anchor (5) fixed to the rear panel, one front anchor (4) fixed to the front formwork panel, and one tie rod (6) fixed to the front anchor and to the rear anchor. The rear anchor comprises a support (50) configured for being fixed to the rear formwork panel, and a nut (51) coupled to said support. The nut comprises a threaded hole configured for housing the threaded end (60) of a tie rod (6). The threaded hole of the nut comprises a first segment (511) with an internal thread with a first core diameter and a second segment (512) with an internal thread with a second core diameter, the first core diameter being greater than the second core diameter.
Anchor assembly for a vertical formwork, said anchor assembly comprising a front anchor element (4), and a tie rod (6) comprising a first end (61) which is housed in said front anchor element (4). The front anchor element (4) and the first end (61) of the tie rod (6) are configured for fixing said front anchor element (4) in different axial positions of the first end(61) of the tie rod (6), such that when the tie rod (6) is arranged in a fitting angular position it can move axially with respect to the front anchor (4), and when the tie rod is arranged in a fixing angular position the tie rod (6) cannot move axially with respect to the front anchor (4). The front anchor element (4) also comprises blocking means configured for blocking the rotation of the tie rod (6) when it is arranged in the fixing angular position.
Rear anchor for a vertical formwork, comprising a dome plate (52) comprising a spherical-shaped central section (520) comprising an opening (521), and a nut (51) with a threaded hole (510) configured for housing a threaded end (60) of a tie rod (6), the nut (51) comprising a spherical portion (515) which is arranged in the opening (521) of the dome plate (52). The spherical portion (515) of the nut (51) and the central section (520) of the dome plate (52) are coupled like a ball and socket joint. The rear anchor (5) also comprises a support plate (50) configured for being fixed to a rear formwork panel (3), said support plate (50) comprising a housing (500) in which the dome plate (52) is arranged, and said dome plate (52) having freedom of radial movement with respect to the support plate (50) inside the housing (500).
Vertical formwork (1) comprising at least one front formwork panel (2) and one rear formwork panel (3) which are arranged facing one another, one rear anchor (5) fixed to the rear panel (3), one front anchor (4) fixed to the front formwork panel (2), and one tie rod (6) fixed to the front anchor (4) and to the rear anchor (5). The rear anchor (5) comprises a support (50) configured for being fixed to the rear formwork panel (3), and a nut (51) coupled to said support (50). The nut (51) comprises a threaded hole configured for housing the threaded end (60) of a tie rod (6). The threaded hole of the nut (51) of the rear anchor (5) comprises a first segment (511) with an internal thread with a first core diameter and a second segment (512) with an internal thread with a second core diameter, the first core diameter being greater than the second core diameter.
Rear anchor for a vertical formwork, comprising a dome plate (52) comprising a spherical-shaped central section (520) comprising an opening (521), and a nut (51) with a threaded hole (510) configured for housing a threaded end (60) of a tie rod (6), the nut (51) comprising a spherical portion (515) which is arranged in the opening (521) of the dome plate (52). The spherical portion (515) of the nut (51) and the central section (520) of the dome plate (52) are coupled like a ball and socket joint. The rear anchor (5) also comprises a support plate (50) configured for being fixed to a rear formwork panel (3), said support plate (50) comprising a housing (500) in which the dome plate (52) is arranged, and said dome plate (52) having freedom of radial movement with respect to the support plate (50) inside the housing (500).
The invention relates to an anchoring assembly for vertical formwork, comprising a front anchoring element (4) and a tensioner (6) that comprises a first end (61) and sits inside said front anchoring element (4). The front anchoring element (4) and the first end (61) of the tensioner (6) are configured to secure the front anchoring element (4) in different axial positions of the first end (61) of the tensioner (6), such that when the tensioner (6) is disposed in an angular adjustment position, same can move axially with respect to the front anchor (4), and when the tensioner is disposed in an angular securing position, the tensioner (6) cannot move axially with respect to the front anchor (4). The front anchoring element (4) also comprises locking means configured to block the rotation of the tensioner (6) when same is disposed in the angular securing position.
An anchoring system and method for anchoring a climbing head to a concrete slab. The anchoring system includes a support and adjustment means for adjusting the positioning of the support with respect to anchoring means of the support. The adjustment means includes a first element fixed to the support, a second element fixed to the anchoring means, both the first element and second element being coupled to one another through a plurality of respective teeth forming a laterally detachable attachment which allows varying the relative longitudinal position of the first element with respect to the second element through the engagement of the corresponding teeth (32, 36) regulating the positioning of the support with respect to the anchoring means.
E04G 5/04 - Means for fastening, supporting, or bracing scaffolds on or against building constructions
E04G 3/28 - Mobile scaffoldsScaffolds with mobile platforms
51.
ANCHORING SYSTEM FOR ANCHORING A CLIMBING HEAD OF A CLIMBING SCAFFOLD TO A CONCRETE SLAB AND ADJUSTMENT METHOD FOR ADJUSTING THE POSITIONING OF THE ANCHORING SYSTEM FOR ANCHORING A CLIMBING HEAD OF A CLIMBING SCAFFOLD TO A CONCRETE SLAB
The invention relates to an anchoring system for anchoring a climbing head (10) to a concrete slab (2) comprising a support (20) and adjustment means (30) for adjusting the positioning of the support (20) with respect to anchoring means (6) of the support (20), comprising a first element (31) fixed to the support (20), a second element (35) fixed to the anchoring means (6), both the first element (31) and second element (35) being coupled to one another through a plurality of respective teeth (32, 36) forming a laterally detachable attachment which allows varying the relative longitudinal position of the first element (31) with respect to the second element (35) through the engagement of the corresponding teeth (32, 36) regulating the positioning of the support (20) with respect to the anchoring means (6). The invention also relates to an adjustment method for adjusting the positioning of the anchoring system of the climbing head (10) with respect to the slab (2).
An anchor for a vertical formwork having two formwork panels facing one another. The anchor is suitable for being fixed to one of the formwork panels. The anchor includes a housing for receiving a part of a tie rod fixing the two formwork panels and sealing means configured for sealing the anchor with respect to the formwork panel in which it is fixed and with respect to the tie rod housed in the housing of the anchor.
Anchor for a vertical formwork, comprising a fixed part (44) suitable for being fixed to a formwork panel (2) and fixing means for fixing said fixed part (44) to the formwork panel. The fixing means comprise a fixing key (46) suitable for being housed in a hole of the formwork panel (2), the fixing key (46) comprising an off-centered stop (460) with respect to the axis of rotation of the fixing key (46), such that in a first angular position the off-centered stop (460) of the fixing key (46) can be introduced in the hole of the formwork panel and in a second angular position the off-centered stop (460) is retained by the formwork panel, and therefore the anchor (4) is fixed to the formwork panel.
Anchor for a vertical formwork, comprising a fixed part (44) suitable for being fixed to a formwork panel (2) and fixing means for fixing said fixed part (44) to the formwork panel. The fixing means comprise a fixing key (46) suitable for being housed in a hole of the formwork panel (2), the fixing key (46) comprising an off-centered stop (460) with respect to the axis of rotation of the fixing key (46), such that in a first angular position the off-centered stop (460) of the fixing key (46) can be introduced in the hole of the formwork panel and in a second angular position the off-centered stop (460) is retained by the formwork panel, and therefore the anchor (4) is fixed to the formwork panel.
Anchor for a vertical formwork having two formwork panels facing one another. The anchor (3) is suitable for being fixed to one of the formwork panels, the anchor (3) comprising a housing (34) for receiving a part of a tie rod fixing the two formwork panels, and sealing means configured for sealing the anchor (3) with respect to the formwork panel in which it is fixed and with respect to the tie rod housed in the housing (34) of the anchor (3). The sealing means comprise a sealing element (33) which is arranged at one end of the anchor (3) and configured for sealing, when the anchor (3) is fixed to the respective formwork panel, both the anchor (3) with respect to the formwork panel in which it is fixed and the anchor (3) with respect to the tie rod housed in the housing (34) of the anchor (3).
Climbing shoe for fixing a climbing scaffold to a concrete section (2), comprising a first part (11) including clamps (14) configured for securing a track of the climbing scaffold and allowing the guided movement of the track while the climbing scaffold climbs in a substantially vertical direction, and a second part (30) fixed to the concrete section (2), the first part (11) being coupled to the second part (30). The first part (11) and the second part (30) are coupled to one another by means of a transverse guide (33) arranged in one of said parts (11, 30) and at least one hook (15) surrounding the transverse guide (33) arranged in the other one of said parts (11, 30), the hook (15) and the transverse guide (33) being able to slide with respect to one another for laterally disassembling the first part (11) with respect to the second part (30).
Climbing shoe for fixing a climbing scaffold to a concrete section (2), comprising a first part (11) including clamps (14) configured for securing a track of the climbing scaffold and allowing the guided movement of the track while the climbing scaffold climbs in a substantially vertical direction, and a second part (30) fixed to the concrete section (2), the first part (11) being coupled to the second part (30). The first part (11) and the second part (30) are coupled to one another by means of a transverse guide (33) arranged in one of said parts (11, 30) and at least one hook (15) surrounding the transverse guide (33) arranged in the other one of said parts (11, 30), the hook (15) and the transverse guide (33) being able to slide with respect to one another for laterally disassembling the first part (11) with respect to the second part (30).
Horizontal formwork system comprising longitudinal beams (3) and safety means (6) for protecting against falling, comprising a safety structure (7) in a plane that is below said formwork panels (2), at least partially covering a gap (31) existing immediately after the last assembled formwork panel (2) and displacement means (10) for moving the safety structure (7) in the longitudinal direction, which displacement means (10) allow the operator to move said structure (7) covering a gap (31) immediately after the last assembled form work panel (2). The present invention also relates to a safety method for installing formwork panels (2) comprising the steps of assembling at least one guide (12) to the corresponding longitudinal beam (3), coupling a structure (7) comprising at least one guided element (11) to the corresponding longitudinal beams (3) through the corresponding guide (12), and sliding the structure (7) covering the gap (31).
E04G 11/38 - Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces for plane ceilings of concrete
E04G 21/32 - Safety or protective measures for persons during the construction of buildings
59.
HORIZONTAL FORMWORK SYSTEM AND SAFETY METHOD FOR INSTALLING FORMWORK PANELS IN A HORIZONTAL FORMWORK SYSTEM
Horizontal formwork system comprising longitudinal beams (3) and safety means (6) for protecting against falling, comprising a safety structure (7) in a plane that is below said formwork panels (2), at least partially covering a gap (31) existing im¬ mediately after the last assembled formwork panel (2) and displacement means (10) for moving the safety structure (7) in the longit¬ udinal direction, which displacement means (10) allow the operator to move said structure (7) covering a gap (31) immediately after the last assembled form work panel (2). The present invention also relates to a safety method for installing formwork panels (2) com - prising the steps of assembling at least one guide (12) to the corresponding longitudinal beam (3), coupling a structure (7) compris - ing at least one guided element (11) to the corresponding longitudinal beams (3) through the corresponding guide (12), and sliding the structure (7) covering the gap (31).
E04G 11/38 - Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces for plane ceilings of concrete
E04G 21/32 - Safety or protective measures for persons during the construction of buildings
Horizontal formwork comprising a support base and a plurality of formwork panels which are supported thereon. The support base comprises a plurality of basic grids (10) comprising four heads (2) arranged at the vertices of said basic grid (10), two5 main beams (3) arranged parallel to one another, and two edge beams (4) arranged parallel to one another and perpendicular to the main beams (3). Each basic grid (10) also comprises central beams (5) which are arranged parallel to the edge beams (4) and supported on the main beams (3). The main beams (3) comprise housings (30) adapted for receiving an end of a respective central beam (5), and at 10 least one basic grid (10) comprises at least one main beam (3) comprising a plurality of support sections (31) for additional beams (6) for supporting the formwork panels.
E04G 11/38 - Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces for plane ceilings of concrete
E04G 11/48 - Supporting structures for shutterings or frames for floors or roofs
E04G 11/50 - Girders, beams, or the like as supporting members for forms
E04G 25/06 - Shores or strutsChocks telescopic with parts held together by positive means
Self-climbing scaffold system comprising rails (3), shoes (10,11,12) fixed to concrete sections (13,14,15) of the building and adapted for guiding the rail (3) in a climbing direction (Z). The system further comprises a guide element (30) pivotably coupled to the rail (3) comprising at least a first guide surface (31,32) which, in a prior position before a threading position for threading the rail (3), projects with respect to the rail (3) towards the corresponding concrete section (13,14,15), said first guide surface (31,32) being adapted for contacting with the shoe (10) in said prior position and straightening the rail (3) with respect to the shoe (10) as said first guide surface (31,32) moves in a guided manner in the shoe (10) pivoting with respect to the rail (3).
E04G 3/28 - Mobile scaffoldsScaffolds with mobile platforms
E04G 11/28 - Climbing forms, i.e. forms which are not in contact with the poured concrete during lifting from layer to layer
69.
UNIT COMPRISING A FORMWORK BOARD INCLUDING A HOUSING AND A REPAIRING ELEMENT SUITABLE FOR BEING FIXED TO THE HOUSING, AND REPAIRING METHOD OF A FORMWORK BOARD
Unit comprising a formwork board (10) including a housing (11) and a repairing element (1) comprising a first member (2) made of thermoplastic material and a second member (3) made of porous material, wherein the second member (3) acts as a support of the first member (2), the first member (2) being arranged on the second member (3). The first member (2) has a height (H3) that partially projects from the board (10) once the repairing element (1) is fixed in the housing (11), the first member (2) being suitable for filling a cavity (12) existing between the repairing element (1) and the housing (11) once the repairing element (1) is housed in the housing (11) after being at least partially melted, thus sealing the attachment between the repairing element (1) and the board (10). Repairing method of the board with the repairing element.
The present invention is related to a movable structure suitable for supporting a cantilever formwork of a new bridge section comprising at least two webs and a floor, the movable structure (1) comprising at least two bearing assemblies (10) comprising a central part (13) supported in a constructed bridge section, a first part (11) fixed to the constructed bridge section, and a cantilever second part (12) extending from the central part (13) towards the new bridge section, a front bracing (20) transversely coupled to the second part (12), and cross beams (4) arranged substantially transverse to the formwork, suitable for supporting said formwork suspended from the front bracing (20). The structure comprises at least two main tie beams (7) each of which is arranged aligned respectively with the upper end of the corresponding web and couples the cross beam (4) bearing the floor to the bearing assembly (10).
Structural member adapted to support a formwork that comprises at least one core (21) made of a material that has a density between, approximately, 40 kg/m3 and approximately, 500 kg/m3, and at least one metal casing (31) that substantially covers a free outer contour of the core (21), the metal casing (31) being arranged attached to the core (21).
The present invention relates to a perimetric protection system for buildings undergoing construction comprising at least two masts (1) spaced from one another and each formed by two vertical U-profiles (1); a horizontal piatform (3) supported on at least two horizontal beams (300) attached to the masts by means of first attachment elements or anchors (130). The system further comprises:0 - at least two inclined beams (100) parallel to one another, which are attached - to the masts (1) by means of at least two second attachment elements (110) forming a first angle (.alpha.); to the horizontal beams (300) by means of at least two third attachment elements (310) forming a second angle (.beta.), and, - the at least two inclined beams (100) having a free end (100a) in the third attachment elements (310), such that their height is greater than the height of the horizontal platform (2), - an inclined protective panel (120) attached to said at least two inclined beams (100).
06 - Common metals and ores; objects made of metal
Goods & Services
(1) A system to form metallic structures for building construction and civil works, namely horizontal and vertical shuttering, formworks, arcades, climbing platforms, façade stabilisation, carriages for bridges, tunnels and walls, perimeter protections consisting of profiles, bracing, connectors, junctions, joints, supports, closures, tubes, expanders, metallic panels, climbing heads, mounting platforms, railings, stairs and beams, all of metal.
(2) A system to form metallic structures for building construction and civil works, namely horizontal and vertical shuttering, formworks, arcades, climbing platforms, façade stabilisation, carriages for bridges, tunnels and walls, perimeter protections consisting of profiles, bracing, connectors, junctions, joints, supports, closures, tubes, expanders, metallic panels, climbing heads, mounting platforms, railings, stairs and beams.
06 - Common metals and ores; objects made of metal
37 - Construction and mining; installation and repair services
Goods & Services
Systems for forming structures of metal for construction and civil works (including horizontal and vertical casings, formwork, gates, climbing consoles, stabilisation for exterior surfaces, trolleys for bridges, tunnels and walls, edge barriers), namely those consisting of profile sections, struts, Connectors,Nodes, Junctions, Brackets,Dogs, Tubes, tensioners, Panels made of metal,Climbing heads, mounting platforms, guardrails, Stairs and ladders, Beams, All of metal. Building construction; Installation of structures of metal for construction and civil works, including horizontal and vertical casings, formwork, gates, climbing consoles, systems for the stabilisation of exterior surfaces, trolleys for bridges, tunnels and walls, edge barriers.
06 - Common metals and ores; objects made of metal
37 - Construction and mining; installation and repair services
Goods & Services
Shoring systems consisting of props of metal, bracing frames and fixed and rotary gripping members. Building construction; Installation of shoring and prop systems.
78.
SELF-CLIMBING PERIMETRIC PROTECTION SYSTEM FOR CONSTRUCTION WORKS IN BUILDINGS
The invention relates to a self-climbing perimetric protection system with at least one module comprising two masts (1) spaced out from one another and formed by two vertical channel irons (1) with U-shaped cross section between which pairs of support elements (6, 7) are immobilized in different horizontal planes, a protection panel (2) attached to the masts, pairs of anchors (4) comprised by respective anchoring frames (11) coupled to guiding heads (10) each comprising two mobile horizontal claws (16) which, in the closed position, brace the mast (1); and a rotational bearing rocker (13, 13') in a vertical plane between a position in which its front part (13) is rotated and supports a support element (6, 7) and a position in which it is rotated downwardly in which it allows the passage of the support elements (6, 7), the pairs of anchors being immobilized at different heights in a part of a building (5, 9) in which they support a pair of support elements (6, 7).
Building materials, not of metal, such as composite panels,
wooden panels, panels of a mixture of wood and composites,
panels of a mixture of wood and plastics.
(1) Non-metallic building materials, namely boards made from plastic materials, composite boards, wood boards, combined wood and composite boards, combined wood and plastic boards.
81.
METHOD AND UNIT FOR PRODUCING RIGID, RECYCLABLE POLYMER SANDWICH PANELS, WITHOUT THE USE OF ADHESIVES, AND RESULTING PANEL
The invention relates to a method and unit for producing rigid, recyclable polymer sandwich panels, preferably based on polypropylene, and to the resulting panel, said unit comprising three lines, namely: a line in which a polypropylene-based polymer foam core is produced by extrusion (line A); a second line (line B) in which the structural skins are obtained, said skins comprising a wood-fibre-reinforced polypropylene base sheet, to which base sheet is applied a surface coating layer also based on polypropylene reinforced with glass fibres; and a third line in which the structural skins produced in line B are affixed to the foam core produced in line A using heat and pressure. The resulting sandwich panel has a thickness of between 7 and 40 mm, a global density of between 400 and 700 kg/m3 and an elastic modulus of between 5 and 10 GPa.
The invention relates to a method and unit for producing polymer sandwich panels and to the resulting panel, said unit comprising three lines, namely: a line in which a foam core is produced by extrusion; another line in which the structural skins are obtained, said skins comprising a glass-fibre-reinforced polypropylene base sheet, to which base sheet is applied a surface coating layer also based on polypropylene reinforced with wood fibres or other natural fibres; and a third line in which the structural skins are affixed to the foam core using heat and pressure. The resulting sandwich panel has a thickness of between 7 and 40 mm, a global density of between 400 and 700 kg/m3 and an elastic modulus of between 5 and 10 GPa.
The present invention describes a method and the respective installation for continuous production of polymeric foam-extruded sheets; another subject of the invention is the development and use of polypropylene-based formulations, which comprise linear polypropylenes and branched polypropylenes. The installation is in four steps: a first step of extrusion foaming, involving mixing a foaming agent, either of a chemical or physical nature; in the latter case the agent is introduced in supercritical conditions with the polymeric mass melted earlier in the initial extruder stages, wherein the material expands exactly at the moment of exiting the mouth of the plane extrusion head; a second step of calibrating and cooling of the foam sheet, wherein the expanded plastic material is cooled by contact in a system of vacuum calibrators and by contact with water in a cooling bath; a collection step for the foam panel; and a final step of cutting of the foam sheet, wherein the final dimensions thereof are defined.
C08J 9/04 - Working-up of macromolecular substances to porous or cellular articles or materialsAfter-treatment thereof using blowing gases generated by a previously added blowing agent
B29C 44/00 - Shaping by internal pressure generated in the material, e.g. swelling or foaming
B29C 47/00 - Extrusion moulding, i.e. expressing the moulding material through a die or nozzle which imparts the desired form; Apparatus therefor (extrusion blow-moulding B29C 49/04)
84.
COMPOSITION, METHOD AND UNIT FOR THE CONTINUOUS PRODUCTION OF A FOAMED POLYMER SHEET AND RESULTING SHEET
The invention relates to a method and a unit for the continuous production of foamed polymer sheets by means of extrusion and to the development and use of polypropylene-based formulations containing linear polypropylenes and branched polypropylenes. The following four steps are performed in the unit, namely: a first extrusion foaming step, in which the polymer mass melted in the first steps of the extruder is mixed with a chemical or physical foaming agent, said agent being introduced under supercricitcal conditions in the latter case, thereby causing the expansion of the material at the outlet of the lips of the flat extrusion head; a second step comprising the calibration and cooling of the foamed sheet, in which the expanded plastic material is cooled upon contact in a vacuum calibrator system and upon contact with water in a cooling bath; a step in which the foamed panel is recovered; and a final step in which the foamed sheet is cut to the final dimensions thereof.
C08J 9/04 - Working-up of macromolecular substances to porous or cellular articles or materialsAfter-treatment thereof using blowing gases generated by a previously added blowing agent
B29C 44/00 - Shaping by internal pressure generated in the material, e.g. swelling or foaming
B29C 47/00 - Extrusion moulding, i.e. expressing the moulding material through a die or nozzle which imparts the desired form; Apparatus therefor (extrusion blow-moulding B29C 49/04)
85.
PANEL FOR POURED CONCRETE RETAINING WALLS OF CONCRETE FORMS, PARTICULARLY FOR CONCRETE SLAB FORMS OR THE LIKE AND PROCESS OF MAKING SUCH PANEL
A panel for poured concrete retaining walls of concrete forms, particularly for concrete slab forms or the like, which panel is comprised of at least one bearing layer of wood or the like, which is at least partly externally covered with one or more moisture and/or water sealing and/or protecting layers. According to the invention, at least one edge of the panel is oriented, at least over a portion thereof, transverse to the direction of the wood fibers and has a sealing edge at least over said portion, which is made of plastic, overlies the end side of the panel at least along said portion of said edge, and is fixed to said end side of the panel by physico-chemical bonding thereby sealing it from the environment.
The invention relates to a connecting device for use between a formwork girder and a brace. The device includes: two arms (3) which terminate at one end in hooks (4) that can be coupled to a first flange of the brace (1), and flat extension pieces (6) which extend from tubular segments (5) that are intended to rest on a lower projection from the formwork girder (2). The device also includes parallel rods (7) which are inclined in the opposite direction to the arms (3), which extend through the aforementioned tubular segments (5) and which are connected by a coupling bridge (9) through which a screw (10) extends, the adjustment of which determines the movement of a clamp (11) mounted to the rods (7). The clamp is fitted with locking means (12) which can be coupled to a second flange of the brace (1) opposite the first, in order to secure the connection between the brace (1) and the formwork girder (2).
The climbing system comprises an upper head (5) attached to the bracket arrangement (3) and also solidly joined to the body of a hydraulic cylinder (6) the rod whereof is attached to a lower head (7), both heads (5) and (7) having a body (8) with upper (9) and lower (10) wings defining there between guides that encircle the upright (1), each of the heads having a rocker (11) that can act on flanges or blocks (14) distributed along the upright (1). The rocker is mounted on a transversal axis (12), against the action of a spring (13) that permanently acts on the rocker in any of its operating positions, and there is an outer handle (19) solidly joined to the transversal axis (12), which can make said axis (12) rotate to change the position of the rocker in relation to the upright (1). The system also has a safety device that makes it possible to limit the positions of the rocker.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Metal building materials, including scaffolding, shuttering, props and boards of metal for building. Buildings materials not of metal, including composite boards, boards of wood, mixed wooden and composite boards, mixed wooden and plastic boards. Construction services; rental of construction material and machinery; assembly and installation of scaffolding and shuttering.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Shuttering and scaffolding of metal; props of metal; Building panels of metal; transportable buildings of metal; metal fittings. Building materials, not of metal, including shuttering and scaffolding not of metal for building; building panels, not of metal; non-metallic rigid pipes for building. Construction services; repair services; installation, including the installation of shuttering and scaffolding not of metal.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Building materials, of metal, including scaffolding and props of metal. Building materials (non-metallic). Building construction, including assembly of scaffolding.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Metal building materials, including reusable metal shuttering for moulded forges and their parts and components, of metal. Building materials (non-metallic). Construction, including shuttering.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
A computer application for providing working solutions for the assembly of shuttering, forges, construction of slabs, girders, walls, pillars and construction in general; expressly excluding X-ray apparatus. Scientific and technological services, as well as research and design relating thereto in the field of construction, such as assembly of shuttering, forges; expressly excluding services related to building construction of X-ray rooms and radiation protection rooms.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Building materials, of metal, including metallic moulds for circular pillars and their parts and components, of metal. Building materials (non-metallic). Building construction, including moulds for circular pillars.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
37 - Construction and mining; installation and repair services
Goods & Services
Metal building materials, including circular sheet mouldings and their parts and components, of metal. Building materials (non-metallic). Construction services.
