The invention relates to a connection element, more particularly a connection pin, for connecting belt ends (15), more particularly driving belts, transport belts, drive belts or toothed belts, wherein at least one protrusion (12, 22) is provided on the surface of the connection element (11, 21), which protrusion can be brought into contact with and into engagement with the belt material. The invention also relates to a belt connection for connecting a plurality of belt ends (15) by means of at least one connection element (11, 12) of this type, wherein the connection element (11, 21) penetrates and thereby connects all the belt ends (15).

The invention relates to a connection element, more particularly a connection pin, for connecting belt ends (15), more particularly driving belts, transport belts, drive belts or toothed belts, wherein at least one protrusion (12, 22) is provided on the surface of the connection element (11, 21), which protrusion can be brought into contact with and into engagement with the belt material. The invention also relates to a belt connection for connecting a plurality of belt ends (15) by means of at least one connection element (11, 12) of this type, wherein the connection element (11, 21) penetrates and thereby connects all the belt ends (15).

In one aspect, a conveyor belt fastener is provided having a rigid body made from a strip of cold-rolled or cold-drawn material such as steel. The body has an upper plate portion, a lower plate portion, and loop portions connecting the upper and lower plate portions. The upper and lower plate portions each have a variable cross-sectional thickness laterally thereacross including raised walls projecting outwardly and ribs projecting inwardly. The fastener has at least one attachment member, such as a staple, for connecting the plate portions to a conveyor belt end and the raised walls protect the staple once driven into the conveyor belt end.

In one aspect, a conveyor belt fastener is provided having a rigid body made from a strip of cold-rolled or cold-drawn material such as steel. The body has an upper plate portion, a lower plate portion, and loop portions connecting the upper and lower plate portions. The upper and lower plate portions each have a variable cross-sectional thickness laterally thereacross including raised walls projecting outwardly and ribs projecting inwardly. The fastener has at least one attachment member, such as a staple, for connecting the plate portions to a conveyor belt end and the raised walls protect the staple once driven into the conveyor belt end.

In one aspect, a conveyor belt fastener is provided having a rigid body made from a strip of cold-rolled or cold-drawn material such as steel. The body has an upper plate portion, a lower plate portion, and loop portions connecting the upper and lower plate portions. The upper and lower plate portions each have a variable cross-sectional thickness laterally thereacross including raised walls projecting outwardly and ribs projecting inwardly. The fastener has at least one attachment member, such as a staple, for connecting the plate portions to a conveyor belt end and the raised walls protect the staple once driven into the conveyor belt end.

A belt or a belt segment has a plurality of strength members that run in the longitudinal direction (X) and are disposed so as to be mutually parallel, and has a connection element forming one end of the belt, or of the belt segment and is configured to be connected to a further connection element at the other end of the belt, or to an end of a further belt segment, or is configured to connect two ends of the belt, or of the belt segment, wherein at least one end of a strength member is connected in a force-fitting manner to a clamping body, wherein the clamping body can be held in a form-fitting manner by the connection element at least in the longitudinal direction (X) through a strength member leadthrough. A strength member leadthrough in the longitudinal direction (X) has a widening facing the clamping body.

A method for attaching a connector element to a belt end of a conveyor belt, wherein the connector element has a base tier and an adhesive tier which is disposed on one side of the base tier and produces adhesive under the effect of heat, the base tier in a central region being provided with passages, includes (i) disposing the connector element on the belt end, wherein the connector element positioned in a U-shaped deflection is disposed on averted sides of the belt and on one end side of the belt, wherein the passages are positioned in the region of the U-shaped deflection of the connector element, and the adhesive tier is disposed on the belt so as to face the averted sides of the belt (1); and (ii) connecting the connector element to the belt in the region of the averted sides of the belt, wherein the connector element is adhesively bonded to the belt under the effect of a heated pressing installation that is disposed on both sides of the belt.

Modular conveyor chain, comprising a number of successive, mutually hingedly connected modules. The modules each comprise a link portion made of sheet metal that has a body part that forms a conveying surface. The body part is provided with a centrally located coupling piece on one side thereof, and a pair of interspaced coupling pieces on an opposite side thereof that include an interspace in between. The coupling pieces of successive modules cooperate to form a hinge assembly because the centrally located coupling piece of a link portion is received in the interspace between the interspaced coupling pieces of a link portion of a successive module, and because a hinge pin extends through aligned receiving spaces of the cooperating coupling pieces. The modular conveyor chain further includes a plastic bearing element received between the centrally located coupling piece and the hinge pin. The hinge pin has a substantially constant cross section, and a central portion of the hinge pin is provided with a bearing element that has a closed cross section and extends along the hinge pin at the location of the central coupling element only. Opposing ends of the hinge pins are each provided with an end cap that includes a mantle portion that extends along the hinge pin at the location of an interspaced coupling piece only, and a radially inwardly extending flange portion that cooperates with an end face of the hinge pin.

Modular conveyor chain, comprising a number of successive, mutually hingedly connected modules. The modules each comprise a link portion made of sheet metal that has a body part that forms a conveying surface. The body part is provided with a centrally located coupling piece on one side thereof, and a pair of interspaced coupling pieces on an opposite side thereof that include an interspace in between. The coupling pieces of successive modules cooperate to form a hinge assembly because the centrally located coupling piece of a link portion is received in the interspace between the interspaced coupling pieces of a link portion of a successive module, and because a hinge pin extends through aligned receiving spaces of the cooperating coupling pieces. The modular conveyor chain further includes a plastic bearing element received between the centrally located coupling piece and the hinge pin. The hinge pin has a substantially constant cross section, and a central portion of the hinge pin is provided with a bearing element that has a closed cross section and extends along the hinge pin at the location of the central coupling element only. Opposing ends of the hinge pins are each provided with an end cap that includes a mantle portion that extends along the hinge pin at the location of an interspaced coupling piece only, and a radially inwardly extending flange portion that cooperates with an end face of the hinge pin.

A belt or a belt segment has a plurality of strength members that extend in a longitudinal direction (X) and are arranged parallel to one another, and a connecting element which forms one end of the belt or belt segment and is configured to be connected to a further connecting element at the other end of the belt or to one end of a further belt segment. The ends of the strength members are held by the connecting element. The belt or belt segment is characterized in that the ends of the strength members are connected to at least one clamping body in a force-fitting manner, wherein the clamping body can be held by the connecting element in a force-fitting manner at least in the longitudinal direction (X).