Patents Assigned to BEKAERT ADVANCED CORDS AALTER NV
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Publication number: 20240010465Abstract: The invention relates to a clamp or termination for a coated elevator rope in an elevator. When coated elevator ropes are used electrostatic charge may build up in the ropes due to the insulating coating. These charges generate repelling or attracting forces between the parallel ropes, which hampers the correct miming of the ropes in the pulleys and in extreme cases may derail the coated elevator ropes. The wedge and socket clamps according the invention discriminate themselves from prior art wedge and socket clamps in that the piercing instruments are provided in the low tension zone of the clamp. These piercing instruments can take the form of pins, fins or other protrusions and establish an electrical connection between the wedge and the conductive tensile member. Such an elevator clamp allows to leak static electricy being build up or allows wear detection per elevator rope.Type: ApplicationFiled: September 8, 2021Publication date: January 11, 2024Applicant: BEKAERT ADVANCED CORDS AALTER NVInventor: Dimitri VANDAMME
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Patent number: 11708665Abstract: A reinforcement strand (400) comprises a core (403) around which steel filaments (404) are twisted all with the same final lay length and direction. The steel filaments are arranged in an intermediate layer comprising N first steel filaments and an outer layer of 2N steel filaments circumferentially arranged around the intermediate layer. In the intermediate layer filaments will contact one another at a closing lay length that is determined by the number of steel filaments N in the intermediate layer, the diameter of the core and the diameter of the first steel filaments. By choosing the final lay length and direction equal to the between two and six times the closing lay length gaps will form between the intermediate layer filaments. The 2N outer layer filaments are further divided into a group of smaller (408) and a group of larger (406) diameter steel filaments.Type: GrantFiled: October 28, 2021Date of Patent: July 25, 2023Assignee: BEKAERT ADVANCED CORDS AALTER NVInventors: Wouter Vanreyten, Koen Claeys, Gerd Morren
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Patent number: 11685633Abstract: A belt for use as for example an elevator belt, flat belt, synchronous belt or toothed belt comprises steel strands held in parallel by a polymer jacket. The steel strands have a diameter ‘D’ and are separated by a pitch ‘p’. The ratio of diameter ‘D’ over pitch ‘p’ is larger than 0.55. Such belt arrangement prevents the cutting of the polymer jacket between strand and pulley and abates the noise generation during use. The belts are best built with a type of parallel lay strands particularly designed for use in a belt. These strands do not show core migration during use of the belt.Type: GrantFiled: June 25, 2018Date of Patent: June 27, 2023Assignee: BEKAERT ADVANCED CORDS AALTER NVInventors: Wouter Vanreyten, Gerd Morren
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Patent number: 11613846Abstract: A belt containing steel cords, the steel cords containing strands made of steel filaments wherein the largest diameter filaments are at least intermittently positioned at the radially outer side of the steel cord. Such a configuration can be obtained by using steel cord constructions wherein the thickest filaments are positioned outside of the steel cord which is contrary to the current practice. In a further embodiment the largest diameter filaments fill up some or all of the valleys of the strands at their radially outer side. These monofilaments thus have the same lay length and direction as the strands in the steel cord. The advantage of putting the largest filaments at the outside is that they will break first and thus will be readily detectable by electrical, magnetic or visual means. In this way a belt is provided that can be monitored easier and more conveniently than prior art belts.Type: GrantFiled: October 22, 2018Date of Patent: March 28, 2023Assignee: BEKAERT ADVANCED CORDS AALTER NVInventors: Gerd Morren, Wouter Vanreyten
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Patent number: 11485611Abstract: An elevator tension member is presented that has one or more steel cords as strength members that are encased in a jacket of thermoplastic polyurethane elastomer. The thermoplastic polyurethane elastomer is selected on the basis of its thermal properties in that the glass transition temperature of the hard phase (Tg HS) is above 90° C. In preferential embodiments that thermoplastic polyurethane elastomer has a crystallisation temperature (Tg) that is at least 20° C. higher than Tg HS. In other preferential embodiments the sum of Tg HS and Tc is higher than 200° C. Such thermoplastic polyurethane elastomers exhibit an unexpected increase in useful lifetime when compared to conventionally used polyurethanes. Moreover the invention provides a simple method to select an appropriate thermoplastic polyurethane elastomer.Type: GrantFiled: July 6, 2017Date of Patent: November 1, 2022Assignee: BEKAERT ADVANCED CORDS AALTER NVInventors: Valérie Kodeck, Vincent Vermeersch
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Patent number: 11280047Abstract: A steel cord for the reinforcement of elastomer products such as elevator belts, conveyor belts, synchronous or timing belts or hoses or tyres is presented. The steel cord comprises strands and monofilaments made of steel filaments. The strands themselves are also made of steel filaments twisted together. The strands form the outer layer of the steel cord. The monofilaments are twisted into the cord with the same lay length and direction as the strands and are positioned in the valleys between the strands on the radial outer side of the steel cord. The steel cord has the advantage that it has a better fill factor and a rounder aspect. Furthermore the monofilaments may act as an early wear indicator of the elastomer product.Type: GrantFiled: October 22, 2018Date of Patent: March 22, 2022Assignee: BEKAERT ADVANCED CORDS AALTER NVInventors: Gerd Morren, Wouter Vanreyten
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Publication number: 20220049418Abstract: A reinforcement strand (400) comprises a core (403) around which steel filaments (404) are twisted all with the same final lay length and direction. The steel filaments are arranged in an intermediate layer comprising N first steel filaments and an outer layer of 2N steel filaments circumferentially arranged around the intermediate layer. In the intermediate layer filaments will contact one another at a closing lay length that is determined by the number of steel filaments N in the intermediate layer, the diameter of the core and the diameter of the first steel filaments. By choosing the final lay length and direction equal to the between two and six times the closing lay length gaps will form between the intermediate layer filaments. The 2N outer layer filaments are further divided into a group of smaller (408) and a group of larger (406) diameter steel filaments.Type: ApplicationFiled: October 28, 2021Publication date: February 17, 2022Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Wouter VANREYTEN, Koen CLAEYS, Gerd MORREN
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Publication number: 20210380371Abstract: A steel wire rope is presented for use in elevators and lifting applications. The steel wire rope contains a core surrounded by multiple strands. The outer filaments of the core and the outer filaments of the strands are likely to contact one another during used. The outer steel filaments of the core have an average Vickers hardness that is at least 50 Vickers hardness numbers lower than that of the outer filaments of the strands. As the hardness of the outer filaments of the core is substantially lower than that of the outer filaments of the strands, those softer filaments will preferentially abrade away during use. In this way the core is sacrificed while preserving the integrity of the outer filaments of the strands. The use of this ‘sacrificial core’ results in a higher residual breaking load after use.Type: ApplicationFiled: October 22, 2019Publication date: December 9, 2021Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Eline DE ROOSE, Andreas KLUST
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Patent number: 11186947Abstract: A reinforcement strand (400) comprises a core (403) around which steel filaments (404) are twisted all with the same final lay length and direction. The steel filaments are arranged in an intermediate layer comprising N first steel filaments and an outer layer of 2N steel filaments circumferentially arranged around the intermediate layer. In the intermediate layer filaments will contact one another at a closing lay length that is determined by the number of steel filaments N in the intermediate layer, the diameter of the core and the diameter of the first steel filaments. By choosing the final lay length and direction equal to the between two and six times the closing lay length gaps will form between the intermediate layer filaments. The 2N outer layer filaments are further divided into a group of smaller (408) and a group of larger (406) diameter steel filaments.Type: GrantFiled: June 25, 2018Date of Patent: November 30, 2021Assignee: BEKAERT ADVANCED CORDS AALTER NVInventors: Wouter Vanreyten, Koen Claeys, Gerd Morren
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Publication number: 20210284501Abstract: An elevator tension member is presented that has one or more steel cords as strength members that are encased in a jacket of thermoplastic polyurethane elastomer. The thermoplastic polyurethane elastomer is selected on the basis of its thermal properties in that the glass transition temperature of the hard phase (Tg HS) is above 90° C. In preferential embodiments that thermoplastic polyurethane elastomer has a crystallisation temperature (Tg) that is at least 20° C. higher than Tg HS. In other preferential embodiments the sum of Tg HS and Tc is higher than 200° C. Such thermoplastic polyurethane elastomers exhibit an unexpected increase in useful lifetime when compared to conventionally used polyurethanes. Moreover the invention provides a simple method to select an appropriate thermoplastic polyurethane elastomer.Type: ApplicationFiled: July 6, 2017Publication date: September 16, 2021Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Valérie KODECK, Vincent VERMEERSCH
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Patent number: 10843541Abstract: The invention proposes a drive cable for actuating an element being movable relative to a structure, comprising a cable body which is made of plastics, and which comprises a denticulation extending in the axial direction for engaging a mating denticulation as well as at least one armouring, which continuously reaches through the cable body in the axial direction. A coupling element realised as a moulded section is moulded in a cable connecting region so as to adjoin the cable body. Said coupling element shows a connecting portion for being coupled to the moveable element.Type: GrantFiled: February 7, 2017Date of Patent: November 24, 2020Assignees: WEBASTO SE, BEKAERT ADVANCED CORDS AALTER NVInventors: Ulrich Schreiber, Chris Dhulst, Katrien Bert
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Publication number: 20200270809Abstract: A belt containing steel cords, the steel cords containing strands made of steel filaments wherein the largest diameter filaments are at least intermittently positioned at the radially outer side of the steel cord. Such a configuration can be obtained by using steel cord constructions wherein the thickest filaments are positioned outside of the steel cord which is contrary to the current practice. In a further embodiment the largest diameter filaments fill up some or all of the valleys of the strands at their radially outer side. These monofilaments thus have the same lay length and direction as the strands in the steel cord. The advantage of putting the largest filaments at the outside is that they will break first and thus will be readily detectable by electrical, magnetic or visual means. In this way a belt is provided that can be monitored easier and more conveniently than prior art belts.Type: ApplicationFiled: October 22, 2018Publication date: August 27, 2020Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Gerd MORREN, Wouter VANREYTEN
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Publication number: 20200248404Abstract: A steel cord for the reinforcement of elastomer products such as elevator belts, conveyor belts, synchronous or timing belts or hoses or tyres is presented. The steel cord comprises strands and monofilaments made of steel filaments. The strands themselves are also made of steel filaments twisted together. The strands form the outer layer of the steel cord. The monofilaments are twisted into the cord with the same lay length and direction as the strands and are positioned in the valleys between the strands on the radial outer side of the steel cord. The steel cord has the advantage that it has a better fill factor and a rounder aspect. Furthermore the monofilaments may act as an early wear indicator of the elastomer product.Type: ApplicationFiled: October 22, 2018Publication date: August 6, 2020Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Gerd MORREN, Wouter VANREYTEN
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Patent number: 10683608Abstract: A rope having a core for providing strength to the rope, where at least a metal or composite woven or warp knitted fabric having multiple substantially parallel elongated metal elements is provided around the core for protecting said core from impact and cutting, and where the multiple substantially parallel elongated elements are in the warp direction and held by yarns.Type: GrantFiled: May 8, 2015Date of Patent: June 16, 2020Assignee: BEKAERT ADVANCED CORDS AALTER NVInventors: Hendrik Rommel, Veerle Van Wassenhove, Thomas Hanselaer
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Publication number: 20200122972Abstract: A belt (100) for use as for example an elevator belt, flat belt, synchronous belt or toothed belt comprises steel strands (104) held in parallel by a polymer jacket. The steel strands have a diameter ‘D’ and are separated by a pitch ‘p’. The ratio of diameter ‘D’ over pitch ‘p’ is larger than 0.55. Such belt arrangement prevents the cutting of the polymer jacket (102) between strand and pulley and abates the noise generation during use. The belts are best build with a type of parallel lay strands particularly designed for use in a belt. These strands do not show core migration during use of the belt.Type: ApplicationFiled: June 25, 2018Publication date: April 23, 2020Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Wouter VANREYTEN, Gerd MORREN
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Publication number: 20200115851Abstract: A reinforcement strand (400) comprises a core (403) around which steel filaments (404) are twisted all with the same final lay length and direction. The steel filaments are arranged in an intermediate layer comprising N first steel filaments and an outer layer of 2N steel filaments circumferentially arranged around the intermediate layer. In the intermediate layer filaments will contact one another at a closing lay length that is determined by the number of steel filaments N in the intermediate layer, the diameter of the core and the diameter of the first steel filaments. By choosing the final lay length and direction equal to the between two and six times the closing lay length gaps will form between the intermediate layer filaments. The 2N outer layer filaments are further divided into a group of smaller (408) and a group of larger (406) diameter steel filaments.Type: ApplicationFiled: June 25, 2018Publication date: April 16, 2020Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Wouter VANREYTEN, Koen CLAEYS, Gerd MORREN
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Publication number: 20170145631Abstract: A rope having a core for providing strength to the rope, where at least a metal or composite woven or warp knitted fabric having multiple substantially parallel elongated metal elements is provided around the core for protecting said core from impact and cutting, and where the multiple substantially parallel elongated elements are in the warp direction and held by yarns.Type: ApplicationFiled: May 8, 2015Publication date: May 25, 2017Applicant: BEKAERT ADVANCED CORDS AALTER NVInventors: Hendrik ROMMEL, Veerle VAN WASSENHOVE, Thomas HANSELAER