A transmission belt that is to be mounted on pulleys, for transmitting a force between the pulleys. The transmission belt includes: at least one endless annular hoop; and plate-shaped elements that are held by the at least hoop such that the elements are arranged in a circumferential direction of the transmission belt. The elements, each of which has a pair of flank surfaces at its widthwise opposite ends, are to be clamped between conical surfaces of a substantially V-shaped annular groove of each of the pulleys. A flank angle of each of the flank surfaces is larger than a cone-generating angle of each of the conical surfaces. The elements include first and second elements, such that each of the first elements is to be in contact at the flank surfaces with the conical surfaces, and has a width larger than a width of each of the second elements.

A transmission belt that is to be mounted on pulleys, for transmitting a force between the pulleys. The transmission belt includes: at least one endless annular hoop; and plate-shaped elements that are held by the at least hoop such that the elements are arranged in a circumferential direction of the transmission belt. The elements, each of which has a pair of flank surfaces at its widthwise opposite ends, are to be clamped between conical surfaces of a substantially V-shaped annular groove of each of the pulleys. A flank angle of each of the flank surfaces is larger than a cone-generating angle of each of the conical surfaces. The elements include first and second elements, such that each of the first elements is to be in contact at the flank surfaces with the conical surfaces, and has a width larger than a width of each of the second elements.

A drive belt includes a hoop and multiple elements joined together in a loop by the hoop. Each element has an assembly space into which one end portion of the hoop is inserted during assembly. Each element is configured such that a first opening width, which is a distance between a first hook and a second hook, is less than a width of the hoop, and a second opening width, which is a distance between the second hook and a contact site where the one end portion of the hoop housed in the assembly space contacts a first pillar, is greater than the width of the hoop. The first hook and the second hook respectively include a first displacement-restriction surface and a second displacement-restriction surface each configured to restrict relative displacement between the element and the hoop by contacting a corresponding one of edges of the hoop.

A drive belt includes a hoop and multiple elements joined together in a loop by the hoop. Each element has an assembly space into which one end portion of the hoop is inserted during assembly. Each element is configured such that a first opening width, which is a distance between a first hook and a second hook, is less than a width of the hoop, and a second opening width, which is a distance between the second hook and a contact site where the one end portion of the hoop housed in the assembly space contacts a first pillar, is greater than the width of the hoop. The first hook and the second hook respectively include a first displacement-restriction surface and a second displacement-restriction surface each configured to restrict relative displacement between the element and the hoop by contacting a corresponding one of edges of the hoop.

A driving belt in which elements may be engaged easily with a hoop, and a manufacturing method thereof. Element includes a first element as a standard element and a second element to be inserted between the adjacent first elements in a final phase of assemble. The second element includes a second saddle surface, and pillars erected on each width end of the second saddle surface. An opening width between the pillars is wider than the width of the hoop. The second element is provided with at least one of a second boss fitted into the first dimple of the first element, and a second dimple fitted onto the first boss of the first element.

A driving belt in which elements may be engaged easily with a hoop, and a manufacturing method thereof. Element includes a first element as a standard element and a second element to be inserted between the adjacent first elements in a final phase of assemble. The second element includes a second saddle surface, and pillars erected on each width end of the second saddle surface. An opening width between the pillars is wider than the width of the hoop. The second element is provided with at least one of a second boss fitted into the first dimple of the first element, and a second dimple fitted onto the first boss of the first element.

In a driving belt configured by binding a plurality of elements in loop form by a belt-like hoop, an opening width between a first hook section and a second hook section of the element is narrower than a width of the hoop. A first width from a center to a first pillar section is wider than a second width from the center to a second pillar section. A first clearance between a saddle surface and a lower surface of the first hook section is wider than a second clearance between the saddle surface and a lower surface of the second hook section. The second clearance is wider than a thickness of the hoop.

In a driving belt configured by binding a plurality of elements in loop form by a belt-like hoop, an opening width between a first hook section and a second hook section of the element is narrower than a width of the hoop. A first width from a center to a first pillar section is wider than a second width from the center to a second pillar section. A first clearance between a saddle surface and a lower surface of the first hook section is wider than a second clearance between the saddle surface and a lower surface of the second hook section. The second clearance is wider than a thickness of the hoop.

A first recessing-and-projecting line is formed in a trailing end of a preceding first belt material and a second recessing-and-projecting line is formed in a leading end of a newly fed out second belt material, and the first recessing-and-projecting line and the second recessing-and-projecting line are fitted to each other, thereby joining the first belt material and the second belt material. Note that the first recessing-and-projecting line and the second recessing-and-projecting line pass through a holding section that holds an element in the first belt material or the second belt material.

Among a plurality of layers of metal rings, an inner circumferential projection is formed on an inner circumferential surface of at least one metal ring, and an outer circumferential projection is formed on an outer circumferential surface of the outermost metal ring. Thus, cracks extending from a surface of the metal ring can be arrested by the inner circumferential projection and the outer circumferential projection. Moreover, the outer circumferential projection of the outermost metal ring that does not abut against any other members is set to have a smaller projection height than the inner circumferential projection that abuts against other members. Thus, even if the inner circumferential projection wears by abutting against the other members, the inner circumferential projection can remain and arrest extension of the cracks; also, the projection height of the outer circumferential projection is reduced to enhance flatness of the outer circumferential surface of the metal ring.