TH34697B - Parts for the belt used in continuously variable rate gearboxes. And how to cut such parts - Google Patents

Abstract

The DC60 is a piece of fuselage with a thin area in the lower half of it, and the head is connected to the fuselage by a neck. When a part is cut out of sheet metal, the excess amount of metal which formed by the compression of the lower half of the body under the load of compression from the punching head and The compressive load generated by the drill receiver moves from the fuselage into the metal plate. which has a position on the opposite side of the neck and this movement of the metal takes place into the ends that are separated from along the cross section of the neck After the metal movement has occurred, this part is machined. out of the sheet metal by the punching head completely formed in the parts The head will have ends that are separated from each other accordingly. The transverse thickness is relatively thick and the head and body are each equal to or less than the thickness of the head. The body has an upper half separated from the thin parts and has a lateral apex. separated by a crossroads which is located on the opposite side of the lower neck area The lateral ends that are separated from each other across the body are less thick than the the lower part of the neck in the upper half of the body A piece with a fuselage with a thin area in the lower half of it, and the head, connected to the body by the neck. When a part is cut out of sheet metal, the excess amount of metal which formed by the compression of the lower half of the body under the load of compression from the punching head and The compressive load generated by the drill receiver moves from the fuselage into the metal plate. which has a position on the opposite side of the neck and this movement of the metal takes place into the ends that are separated from along the cross section of the neck After the metal movement has occurred, this part is machined. out of the sheet metal by the punching head completely formed in the parts The head will have ends that are separated from each other accordingly. The transverse thickness is relatively thick and the head and body are each equal to or less than the thickness of the head. The body has an upper half separated from the thin parts and has a lateral apex. separated by a crossroads which is located on the opposite side of the lower neck area The lateral ends that are separated from each other across the body are less thick than the the lower part of the neck in the upper half of the body

Claims (3)

Disclaimers (all) that will not appear on the advertisement page: 1.Part (1) for the belt used in a continuously variable rate gearbox. Where it consists of: body (5), positioned on the edge around the inner circle of the ring-shaped assembly of The pieces are stacked across each other. Where the body (5) will have a lateral edge (12) split Distance from each other horizontally to attach themselves to the gearbox pulley. The body (5) has a thin area (13) in the bottom half there. Thickness Less than the thickness of other parts of the body, and the head (4) is connected to the upper edge at the center of the body (5) by the neck part (6) and is positioned On the edge around the outer circle of the ring-shaped assembly The body (5) has a half of the upper part (21) separated from the thin area (13) and has The ends of the lateral regions are horizontally separated, located on the opposite side. Of the lower part of the neck (6) where the lateral areas are separated by The diagonal of the body (5) is less than the thickness of the bottom area. Of the neck in the upper half of the said body It is unique that the head (4) has its ends (7) horizontally separated, located on the opposite side of the upper neck region (6), and Have Thicker than the thickness of the upper neck (6); The aforementioned head (4) and the aforementioned body (5) have a thickness of each equal or less than its thickness. Of the lateral ends (7) of the head 2. Part forming method (1) for belts used in continuously variable rate gears where the body (5) is positioned on the edge around the inner circle of the annular assembly of the lined parts. Stacked horizontally by such bodies (5) with lateral edges separated horizontally (12) attached With the ploolay of the gearbox replacement rate continuously variable With the aforementioned body (5) having a thin area (13) in The bottom half in there This is less than the thickness of the rest of the body and has the head (4) connected to the top edge of the center of the body (5) by the neck (6) and is positioned on the periphery. The outer circle of the annular assembly by the above method consists of the steps of: Providing a forming die head (16) for extruding sheet metal (2) located on the mold (15) from the face. The top in there to cut the part (1) out of the sheet metal (2) and the punch support (17) to secure the bottom surface of the molded part by the punching head. Such figure (16) In order to pass the puncture resistance load in order to compress and thin (13) the body area (5) to A shape with a predetermined cross section Where the drill support (17) will move The descending body together with the above piece (1); Pressing the aforementioned sheet (2) with the aforementioned punching head (16) and the compression and localization. The thinnest (13) of the body (5) to a predetermined cross-sectional shape under the load It is a compression receptor (17) which comes from the puncture receiver. In order to meet the burden of compression that has From the above forming head (16); The metal overload, which occurs when the sheet (2) is extruded by the perforated head (16) and the thin (13) part of the body (5), is pressed and transformed under The compressive load generated by the perforation receiver (17) increases the resistance to the compression load coming from the head. (16) it is moved from the said body part (5) into a metal sheet containing The position is on the opposite side of the neck thereof (6); And cutting out parts from sheets Metal (2) by separating sheet metal Where the excess amount of metal has moved in as the sheet The metal was extruded by the forging head (16) from the body part (5) while the The center of the head (4) is extruded in order to move the metal into the Lateral distal regions (7) of the head; For forming parts Where the thickness of the lateral regions is separated from each other Along the cross section of the head (7) it is positioned on the opposite side of the upper neck area. Above (6) above the neck (6) by the head (4) and body. That (5) shall have the thickness of each part equal to or less than that of the said head (4) and The body (5) will have half the top part (21) separate from the thin part (13) and will have The ends of the lateral regions are horizontally separated, located on the opposite side. Of the lower part of the neck (6) by the lateral areas (7) separated by The diagonal of the body (5) is less than the thickness of the bottom area. Of the neck (6) in the upper half of the said body (5) 3. The method specified in Clause 2, which follows the procedure of: Pressing the aforementioned sheet (2) to the die with a key (20) under the load of compression. Which is defined so that the excess amount of the load that occurs under the compression load coming from the head The profile (16) and the load on the compression receiver (17) come from the drill receiver. To move away from the said body (5)