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.

The invention relates to a drive belt connecting device for the tension-resistant connection of fiat drive belt end sections (93, 94), which drive belt connecting device comprises a multi-part connecting body (41), which has connecting parts (1, 2, 3) and a connecting chamber (42), which accommodates the drive belt end sections (93, 94), which have at least one first belt flat side having a belt surface profile (911) in an overlapping arrangement for tension-resistant connection. A first outer connecting part (1) and a second outer connecting part (2) bound the connecting chamber (42), in which an inner connecting part (3) having inner connecting surfaces (301, 302) is arranged. The inner connecting surfaces and outer connecting surfaces (101, 201) of the outer connecting parts (1, 2) can be placed onto the drive belt end sections (93, 94). A fastening means (5) fastens the outer connecting parts (1, 2) to each other at a limited fixed distance. An inner connecting means (30) connects the inner connecting part (3) to at least one of the two outer connecting parts (1, 2) for connection that is secure in the belt tension direction. A flat drive belt (90) is connected to a circulating continuous flat drive belt (90) by means of at least one said drive belt connecting device (4). A conveying device (7) comprises two such drive belts (901, 902), which can be guided and driven along a conveying path (78) and a return path (79) to circulate together and in parallel, wherein one conveyor belt (75) is formed by a series of transport elements (73) arranged in parallel and transport blocks (74) fastened onto the two drive belts (901, 902) to support said transport elements. Connecting bodies (41) of the drive belt connecting devices (4) are configured as transport blocks (74).

The invention relates to a drive belt connecting device for the tension-resistant connection of fiat drive belt end sections (93, 94), which drive belt connecting device comprises a multi-part connecting body (41), which has connecting parts (1, 2, 3) and a connecting chamber (42), which accommodates the drive belt end sections (93, 94), which have at least one first belt flat side having a belt surface profile (911) in an overlapping arrangement for tension-resistant connection. A first outer connecting part (1) and a second outer connecting part (2) bound the connecting chamber (42), in which an inner connecting part (3) having inner connecting surfaces (301, 302) is arranged. The inner connecting surfaces and outer connecting surfaces (101, 201) of the outer connecting parts (1, 2) can be placed onto the drive belt end sections (93, 94). A fastening means (5) fastens the outer connecting parts (1, 2) to each other at a limited fixed distance. An inner connecting means (30) connects the inner connecting part (3) to at least one of the two outer connecting parts (1, 2) for connection that is secure in the belt tension direction. A flat drive belt (90) is connected to a circulating continuous flat drive belt (90) by means of at least one said drive belt connecting device (4). A conveying device (7) comprises two such drive belts (901, 902), which can be guided and driven along a conveying path (78) and a return path (79) to circulate together and in parallel, wherein one conveyor belt (75) is formed by a series of transport elements (73) arranged in parallel and transport blocks (74) fastened onto the two drive belts (901, 902) to support said transport elements. Connecting bodies (41) of the drive belt connecting devices (4) are configured as transport blocks (74).

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

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

The invention provides a fully modular component based conveyor belt splice with expansible tension links, robust side rails, a component based clamping structure and a modular structurally supported thermal element.

The invention provides a fully modular component based conveyor belt splice with expansible tension links, robust side rails, a component based clamping structure and a modular structurally supported thermal element.

In one aspect, a vibratory tool is provided for driving a plurality of rivets out from bores of a guide block into an underlying conveyor belt. The tool has a body, a hydraulically operated main drive rod mounted to the body, and a driver aligned with the main drive rod and slidably mounted to the body. The driver has a plurality of elongated drive rod members for engaging and simultaneously driving multiple rivets out of the guide block bores. The driver has an intermediate impact surface for being impacted by the main drive rod impact end as the main drive rod impact end rapidly reciprocates between retracted and extended positions. The driver also has a rearwardly extending spacer wall for axially spacing the driver intermediate impact surface and the main drive rod impact end in the retracted position thereof by at least a predetermined axial distance sized for optimizing energy transfer from the main drive rod to the driver.

In one aspect, a vibratory tool is provided for driving a plurality of rivets out from bores of a guide block into an underlying conveyor belt. The tool has a body, a hydraulically operated main drive rod mounted to the body, and a driver aligned with the main drive rod and slidably mounted to the body. The driver has a plurality of elongated drive rod members for engaging and simultaneously driving multiple rivets out of the guide block bores. The driver has an intermediate impact surface for being impacted by the main drive rod impact end as the main drive rod impact end rapidly reciprocates between retracted and extended positions. The driver also has a rearwardly extending spacer wall for axially spacing the driver intermediate impact surface and the main drive rod impact end in the retracted position thereof by at least a predetermined axial distance sized for optimizing energy transfer from the main drive rod to the driver.

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.