An endless belt includes a band-shaped belt main body made of a vulcanized rubber, and a coupling part that is made of a thermoplastic resin and is provided between both end parts of the belt main body, wherein the vulcanized rubber of the both end parts of the belt main body and the thermoplastic resin of the coupling part are chemically bonded to each other.

A system for monitoring conveyor belts is disclosed. The system includes a generator array, a sensor array and circuitry. The generator array is configured to apply a magnetic field to a plurality of belt subsegments of a segment of a conveyor belt. The sensor array is configured to measure a plurality of magnetic responses for the plurality of belt subsegments. The circuitry is configured to determine whether at least a portion of the segment requires replacement based on the measured plurality of magnetic responses.

A system for monitoring conveyor belts is disclosed. The system includes a generator array, a sensor array and circuitry. The generator array is configured to apply a magnetic field to a plurality of belt subsegments of a segment of a conveyor belt. The sensor array is configured to measure a plurality of magnetic responses for the plurality of belt subsegments. The circuitry is configured to determine whether at least a portion of the segment requires replacement based on the measured plurality of magnetic responses.

The present invention provides a metal cord having better adhesion to rubber compared to a conventional one, as well as a metal cord-rubber composite and a conveyor belt, including the same. In a metal cord (10) composed of a plurality of metal filaments (11) twisted together, the surfaces of the metal filaments (11) constituting the outermost layer are each provided with a zinc plating layer (16), and the degrees of crystal orientation of the (002) plane and the (102) plane of the surface of the zinc plating layer (16) are less than 120.

The present invention provides a metal cord having better adhesion to rubber compared to a conventional one, as well as a metal cord-rubber composite and a conveyor belt, including the same. In a metal cord (10) composed of a plurality of metal filaments (11) twisted together, the surfaces of the metal filaments (11) constituting the outermost layer are each provided with a zinc plating layer (16), and the degrees of crystal orientation of the (002) plane and the (102) plane of the surface of the zinc plating layer (16) are less than 120.

The present invention relates to a belt (1) or a belt segment (1), having a plurality of reinforcement members (11) which run in the longitudinal direction (X) and are arranged parallel to one another and which are embedded at least substantially into an elastomer main body (10), and having at least one connection element (2) which is arranged on an open end (1a) of the belt (1) or of the belt segment (1), wherein the ends of the reinforcement members (11) are each at least substantially exposed by and/or left free of the elastomer main body (10), wherein the ends of the reinforcement members (11) are each connected in a force-fitting manner to at least one clamping element (12), and wherein the clamping elements (12) are held in a form-fitting manner in a connection section (A) by the connection element (2) at least in the longitudinal direction (X). The belt (1) or the belt segment (1) is characterized in that the connection element (2) has at least one extension element (25) which directly adjoins the connection section (A) in the longitudinal direction (X) and which at least sectionally forms an extension section (B) of the connection element (2) in the longitudinal direction (X), and in that the reinforcement members (11) of the open end (1a) of the belt (1) or of the belt segment (1) are received in the extension section (B) by the extension element (25) in such a way that the reinforcement members (11) are guided at least sectionally in a rectilinear manner in the longitudinal direction (X).

The invention relates to a method for filling in a tension member in particular for conveyor belts, in particular a tension member which is configured as a steel cable. The method is intended to allow the full penetration of the tension member structure. Here, the method contains at least the following method steps: —introducing the individual wires (2, 2′, 2″, 2′″, 2″″) of the strand (5) into the stranding head (1) of a stranding machine (10) and —partially or fully applying at least one coating agent to at least 50% of the individual wires (2, 2′, 2″, 2′″, 2″″) of the strand (5) prior to the twisting of the individual wires (2, 2′, 2″, 2′″, 2″″) to form a strand (5) or simultaneously with the twisting of the individual wires (2, 2′, 2″, 2′″, 2″″) to form a strand (5) and —twisting the individual wires (2, 2′, 2″, 2′″, 2″″) to form a strand (5), wherein at least 50% of the individual wires (2, 2′, 2″, 2′″, 2″″) have been provided with at least one coating agent, and —making a cable from at least one strand (5).

The invention relates to a method for filling in a tension member in particular for conveyor belts, in particular a tension member which is configured as a steel cable. The method is intended to allow the full penetration of the tension member structure. Here, the method contains at least the following method steps: —introducing the individual wires (2, 2′, 2″, 2′″, 2″″) of the strand (5) into the stranding head (1) of a stranding machine (10) and —partially or fully applying at least one coating agent to at least 50% of the individual wires (2, 2′, 2″, 2′″, 2″″) of the strand (5) prior to the twisting of the individual wires (2, 2′, 2″, 2′″, 2″″) to form a strand (5) or simultaneously with the twisting of the individual wires (2, 2′, 2″, 2′″, 2″″) to form a strand (5) and —twisting the individual wires (2, 2′, 2″, 2′″, 2″″) to form a strand (5), wherein at least 50% of the individual wires (2, 2′, 2″, 2′″, 2″″) have been provided with at least one coating agent, and —making a cable from at least one strand (5).

A traction belt (2) for an inclined conveyor (12) of a combine harvester (1), with a traction belt body (20) which extends substantially in the longitudinal direction (X) of the belt (2) and is endlessly closed or designed to be endlessly closable. The traction belt (2) has at least one tension strand (22) which runs in the longitudinal direction (X) is embedded in the traction belt body (20) and is enclosed by the traction belt body (20).

Conveyor belts having a reinforcement layer, a carry cover layer above the reinforcement layer, and a pulley cover layer disposed beneath the reinforcement layer, where the carry cover layer includes least one hydrogenated nitrile butadiene rubber (HNBR) material. The HNBR material(s) may have a percentage of hydrogenation of from about 90% to about 96%, from about 92% to about 95%, or even about 94%. The carry cover layer may be from about 4 mm to about 6 mm thick, or even from about 4 mm to about 5 mm thick. In some cases, the reinforcement layer includes a rubber matrix, which may be formed of a nitrile rubber (NBR), or mixture of nitrile NBR and natural rubber blended in a NBR:NR weight ratio of from 3:1 to 9:1. In some aspects, the reinforcement layer includes a plurality of reinforcement plies embedded in the rubber matrix.