A roof cutter and a method of cutting a roof is provided. The roof cutter includes a base that is movable between a retracted configuration and a cutting configuration. In the retracted configuration, the blade is displaced from the roof. In the cutting configuration, the blade is positioned so as to facilitate cutting of the roof. The roof cutter includes a stop assembly and an engagement member that is configured to engage with the stop assembly when the base is in the cutting configuration, thereby establishing a maximum cutting depth. A dampening mechanism softens impacts associated with the blade moving to the cutting depth and absorbs vibrations associated with cutting the roof at the cutting depth. An adjustment assembly is configured to selectively adjust the cutting depth and/or to selectively restrain the base in the retracted configuration, thereby preventing the blade from cutting the roof.

Disclosed is a tire building apparatus and a method for joining or cutting tire components. The tire building apparatus includes a rocking member that is movable in a rocking plane in a rocking motion along a rocking line, a translation guide extending parallel to the rocking line and a carriage that is displaceable along the translation guide, wherein the rocking member has a convex edge that defines a minor arc of a circle and extends up to a rotation center, wherein the rocking member is supported by the carriage at the rotation center and is angularly displaceable with respect to the carriage about a rotation axis extending through the rotation center.

A method for cleaving a fiber comprises rotating an actuator to apply a positioning force to a blade in a scoring assembly. The positioning force produces a score in the surface of a fiber, and the method further comprise applying a cleaving force to the fiber to cleave the fiber. The method can further include measuring the magnitude of the positioning force and rotating the actuator until the magnitude corresponds to a pre-determined magnitude. A cleaver comprises a scoring assembly, drive assembly, and a cleaving assembly. The scoring assembly includes a holder having one or more blades, and an actuator. The cleaving assembly secures a fiber in the scoring assembly. The drive assembly rotates the actuator to position one or more blades to score the surface of the fiber. The cleaving assembly applies a cleaving force to the fiber to cleave the fiber at the location of the score.

A device for cutting the profile of a tyre tread (B) in a profiled element made of a raw rubber mixture comprises a frame (1) supporting a cutting assembly (2) and travel means (3) which make it possible for said profiled element (B) to be cut to travel in front of said cutting assembly (2), said cutting assembly (2) comprising at least one cutter (4) for cutting a longitudinal groove (S) in the outer face of said profiled element (B) and means (5) for inducing vibration in said cutter (4) in a transverse direction perpendicular to the direction of travel (X-X) of said profiled element.

A device for cutting the profile of a tyre tread (B) in a profiled element made of a raw rubber mixture comprises a frame (1) supporting a cutting assembly (2) and travel means (3) which make it possible for said profiled element (B) to be cut to travel in front of said cutting assembly (2), said cutting assembly (2) comprising at least one cutter (4) for cutting a longitudinal groove (S) in the outer face of said profiled element (B) and means (5) for inducing vibration in said cutter (4) in a transverse direction perpendicular to the direction of travel (X-X) of said profiled element.

A device includes a blade, which is movable within an associated working space for cutting product units, and a conveying device in which the product units can be individually conveyed into the working space of the blade. The conveying device includes at least one two-part conveying channel associated with the blade, in which on one side first conveyor elements and on the other side second conveyor elements are guided, which are assigned to one another in pairs and which have each a recess for partially receiving a separated product unit. The sides of the first and second conveyor elements, which are facing one another, delimit therebetween the free working space, so that the blade is guidable within the working space partially or completely through the product units held in the first and second conveyor elements which correspond to one another.

A device includes a blade, which is movable within an associated working space for cutting product units, and a conveying device in which the product units can be individually conveyed into the working space of the blade. The conveying device includes at least one two-part conveying channel associated with the blade, in which on one side first conveyor elements and on the other side second conveyor elements are guided, which are assigned to one another in pairs and which have each a recess for partially receiving a separated product unit. The sides of the first and second conveyor elements, which are facing one another, delimit therebetween the free working space, so that the blade is guidable within the working space partially or completely through the product units held in the first and second conveyor elements which correspond to one another.

A cutting device for cutting a food product that is conveyed by a conveyor means. The cutting device includes a first cutting blade and a moving mechanism attached to the first cutting blade for moving the first cutting blade sideways in either direction across the conveyor means, and a control unit. The first cutting blade is adapted to cut at least one incision in the product from one side of the product. The control unit is adapted to control the first cutting blade and the moving mechanism based on image data of the food product, and includes utilizing the image data in instructing the moving mechanism to adjust the position of the first cutting blade across the conveyor means.

A cutting device for cutting a food product that is conveyed by a conveyor means. The cutting device includes a first cutting blade and a moving mechanism attached to the first cutting blade for moving the first cutting blade sideways in either direction across the conveyor means, and a control unit. The first cutting blade is adapted to cut at least one incision in the product from one side of the product. The control unit is adapted to control the first cutting blade and the moving mechanism based on image data of the food product, and includes utilizing the image data in instructing the moving mechanism to adjust the position of the first cutting blade across the conveyor means.

A method for cleaving a fiber comprises rotating an actuator to apply a positioning force to a blade in a scoring assembly. The positioning force produces a score in the surface of a fiber, and the method further comprise applying a cleaving force to the fiber to cleave the fiber. The method can further include measuring the magnitude of the positioning force and rotating the actuator until the magnitude corresponds to a pre-determined magnitude. A cleaver comprises a scoring assembly, drive assembly, and a cleaving assembly. The scoring assembly includes a holder having one or more blades, and an actuator. The cleaving assembly secures a fiber in the scoring assembly. The drive assembly rotates the actuator to position one or more blades to score the surface of the fiber. The cleaving assembly applies a cleaving force to the fiber to cleave the fiber at the location of the score.