A rubber composition of the present technology for a conveyor belt contains a diene rubber and a carbon black, the diene rubber containing: a natural rubber; and a modified butadiene rubber obtained by modifying a butadiene rubber with a nitrone compound; the content of the natural rubber in the diene rubber being 30 to 85 mass %, and the content of the modified butadiene rubber in the diene rubber being 15 to 70 mass %.

A belt splicer includes a pair of decks, each configured to hold a belt end. At least one of the decks is movable along a direction perpendicular to the longitudinal axes of the belt ends to impart a shearing force at the at least partially molten interface between the belt ends. The movement of at least one of the at least partially molten mating edges generally parallel to the interface facilitates formation of an improved joint between the belt ends.

A belt splicer includes a pair of decks, each configured to hold a belt end. At least one of the decks is movable along a direction perpendicular to the longitudinal axes of the belt ends to impart a shearing force at the at least partially molten interface between the belt ends. The movement of at least one of the at least partially molten mating edges generally parallel to the interface facilitates formation of an improved joint between the belt ends.

An endless conveyor belt loop includes a conveyor belt that has an elongated body and a substantially uniform width. The ends of the conveyor belt each include a splice formation extending across the width of the conveyor belt that are each configured to mate with the other. A thermoplastic connector is thermally engaged between exposed surfaces formed by the splice formation at the ends of the conveyor belt. When the splice formations are aligned, the thermoplastic connector is thermally engaged and continuously interconnected between the ends for conveyor belt to form a seamless end connection. The thermoplastic connector comprises a thermoplastic copolyester elastomer.

An endless conveyor belt loop includes a conveyor belt that has an elongated body and a substantially uniform width. The ends of the conveyor belt each include a splice formation extending across the width of the conveyor belt that are each configured to mate with the other. A thermoplastic connector is thermally engaged between exposed surfaces formed by the splice formation at the ends of the conveyor belt. When the splice formations are aligned, the thermoplastic connector is thermally engaged and continuously interconnected between the ends for conveyor belt to form a seamless end connection. The thermoplastic connector comprises a thermoplastic copolyester elastomer.

The present invention allows the friction of the belt with the slide table to be abated as well as restrains dusts from occurring.

The conveyor belt 10 for carrying a transported article mounted on the surface thereof comprises: a belt main body 1; and a lower surface layer 3 to cover the lower surface of the belt main body 1, in which the lower surface layer 3 is provided with a projective surface 4b in which a plurality of projections 4 whose peak portions 4a are formed into a curved surface shape.

The present invention allows the friction of the belt with the slide table to be abated as well as restrains dusts from occurring.

The conveyor belt 10 for carrying a transported article mounted on the surface thereof comprises: a belt main body 1; and a lower surface layer 3 to cover the lower surface of the belt main body 1, in which the lower surface layer 3 is provided with a projective surface 4b in which a plurality of projections 4 whose peak portions 4a are formed into a curved surface shape.

A co-formed composite conveyor belt having a flat belt component, a plurality of reinforcing cords, a timing component, and a reinforced netting component, all co-formed together in one integral belt having a single pitch line. The timing component includes first and second adjacent rows of obliquely angled teeth. Additional, optional material layers can be co-formed therewith including for wear resistance and conveying functions. Co-forming apparatus and methods are disclosed.

A co-formed composite conveyor belt having a flat belt component, a plurality of reinforcing cords, a timing component, and a reinforced netting component, all co-formed together in one integral belt having a single pitch line. The timing component includes first and second adjacent rows of obliquely angled teeth. Additional, optional material layers can be co-formed therewith including for wear resistance and conveying functions. Co-forming apparatus and methods are disclosed.

A portable conveyor belt splicing apparatus is provided that includes an upper press assembly and a lower press assembly which include, respectively, upper and lower platen assemblies. The upper and lower press assemblies may each include a forced air cooling system for rapidly cooling platens of the platen assemblies. The upper and lower press assemblies may include insulating assemblies with resilient members that support the upper and lower press assemblies. The resilient members provide structural support and insulate the platens from the frame which reduces the power required to heat the platens. In one form, the apparatus includes a power supply circuit that can alternate between providing power to upper and lower heaters in response to the apparatus being connected to different types of standard power supplies. Further, the power supply circuit permits the use of a single recipe for a particular belt irrespective of the type of power supply.