Drive belt comprising different types of transverse members for a continuously variable transmission

The invention claimed is: 1. A drive belt ( 3 ) operable by contact with sheaves ( 4 , 5 ) of pulleys ( 1 , 2 ) of a transmission, the drive belt ( 3 ) comprising: an endless carrier ( 31 ), the endless carrier ( 31 ) having a length direction (L); and a number of consecutive transverse members ( 32 ) mounted slidable on the endless carrier ( 31 ), each transverse member ( 32 ) provided with i) a front main body surface ( 39 ), ii) a rear main body surface ( 38 ), wherein a width (W) of each transverse member extends across the front body surface ( 39 ) between the opposite edges of each transverse member ( 32 ), a height direction extends in a radial direction (H) of each transverse member ( 32 ), and a thickness direction (L) of each transverse member extends from the front body surface ( 39 ) to the rear body surface ( 38 ), iii) pulley contact faces ( 37 ), destined for contact with the sheaves ( 4 , 5 ) of the pulleys ( 1 , 2 ) of the transmission, extending from the front body surface ( 39 ) to the rear body surface ( 38 ) in the thickness direction along opposite edges of each transverse member ( 32 ), and iv) a cut-out ( 33 ) with a radially inward side that defines a bearing surface ( 42 ) that accepts the endless carrier ( 31 ) with the endless carrier ( 31 ) extending perpendicular to the width of each transverse member in the thickness direction of each transverse member ( 32 ), the bearing surface ( 42 ) contacting an inside of the endless carrier ( 31 ), wherein a base portion ( 34 ) of each transverse member ( 32 ) is located below the cut-out ( 33 ) and extends radially inwards from the endless carrier ( 31 ), and a top portion ( 36 ) of each transverse member ( 32 ) extends radially outwards from the endless carrier ( 31 ), and the base portion ( 34 ) of the front body surface ( 39 ) includes a rocking edge ( 18 ) that is convexly curved in the radial direction (H) with a first thickness of the base portion ( 34 ) at an upper end of the rocking edge ( 18 ) being greater than a second thickness of the base portion ( 34 ) at the lower end of the rocking edge ( 18 ), wherein the transverse members ( 32 ) are comprised of at least a first type transverse member ( 32 ′) and a second type transverse member ( 32 ″), wherein the first thickness (D 1 ) of the base portion ( 34 ) at the upper end of the rocking edge ( 18 ) of the first type transverse member ( 32 ′) is greater by a first proportion than the first thickness (D 2 ) of the base portion ( 34 ) at a corresponding upper end of the rocking edge ( 18 ) of the second type transverse member ( 32 ″), wherein the second thickness of the base portion ( 34 ) at the lower end of the rocking edge ( 18 ) of the first type transverse member ( 32 ′) is greater than the second thickness of the base portion ( 34 ) at a corresponding lower end of the rocking edge ( 18 ) of the second type transverse member ( 32 ″), and wherein an overall width of the first type transverse member ( 32 ′) is smaller by a second proportion than an overall width of the second type transverse member ( 32 ″), such that in operation the pulley contact faces ( 37 ) of both the first and second type transverse members ( 32 ′, 32 ″) make physical contact with the pulleys. 2. The drive belt ( 3 ) according to claim 1 , wherein the first proportion is equal to the second proportion such that the i) the first thickness (D 1 ) of the first type transverse member ( 32 ′) is greater than the first thickness (D 2 ) of the second type transverse member ( 32 ″), by an equal proportion to ii) the overall width of the first type transverse member ( 32 ′) being smaller than the overall width of the second type transverse member ( 32 ″). 3. The drive belt ( 3 ) according to claim 2 , wherein the dimension in the width direction of the second type of transverse members ( 32 ″) has a value in the range between 1.001 and 1.025 times the dimension in the width direction of the first type of transverse members ( 32 ′). 4. The drive belt ( 3 ) according to claim 1 , wherein the dimension in the width direction of the second type of transverse members ( 32 ″) has a value in the range between 1.001 and 1.025 times the dimension in the width direction of the first type of transverse members ( 32 ′). 5. The drive belt ( 3 ) according to claim 1 , wherein, the first thickness (D 1 ) of the first type transverse member ( 32 ′) is 1.001 times greater than the first thickness (D 2 ) of the second type transverse member ( 32 ″), and the overall width of the first type transverse member ( 32 ′) is 1.001 times smaller than the overall width of the second type transverse member ( 32 ″). 6. The drive belt ( 3 ) according to claim 1 , wherein, the first thickness (D 1 ) of the first type transverse member ( 32 ′) is 1.025 times greater than the first thickness (D 2 ) of the second type transverse member ( 32 ″), and the overall width of the first type transverse member ( 32 ′) is 1.025 times smaller than the overall width of the second type transverse member ( 32 ″). 7. The drive belt ( 3 ) according to claim 1 , wherein, the first thickness (D 1 ) of the first type transverse member ( 32 ′) is between 1.001 and 1.025 times greater than the first thickness (D 2 ) of the second type transverse member ( 32 ″), and the overall width of the first type transverse member ( 32 ′) is between 1.001 and 1.025 times smaller than the overall width of the second type transverse member ( 32 ″). 8. A drive belt ( 3 ) operable by contact with sheaves ( 4 , 5 ) of pulleys ( 1 , 2 ) of a transmission, the drive belt ( 3 ) comprising: a pair of endless carriers ( 31 ), the endless carrier ( 31 ) having a length direction (L); and consecutive transverse members ( 32 ) mounted slidable on the endless carrier ( 31 ), each transverse member ( 32 ) provided with i) a front main body surface ( 39 ), ii) a rear main body surface ( 38 ), wherein a width (W) of each transverse member extends across the front body surface ( 39 ) between the opposite edges of each transverse member ( 32 ), a height direction extends in a radial direction (H) of each transverse member ( 32 ), and a thickness direction (L) of each transverse member extends from the front body surface ( 39 ) to the rear body surface ( 38 ), iii) pulley contact faces ( 37 ), destined for contact with the sheaves ( 4 , 5 ) of the pulleys ( 1 , 2 ) of the transmission, extending from the front body surface ( 39 ) to the rear body surface ( 38 ) in the thickness direction along opposite edges of each transverse member ( 32 ), iv) a pair of cut-outs ( 33 ), each cut-out with a radially inward side that defines a bearing surface ( 42 ) that accepts one of the endless carriers ( 31 ) with the endless carrier ( 31 ) extending perpendicular to the width of each transverse member in the thickness direction of each transverse member ( 32 ), the bearing surface ( 42 ) contacting an inside of the endless carrier ( 31 ), and v) a rocking edge ( 18 ) that is convexly curved in the radial direction (H) with a first thickness of the base portion ( 34 ) at an upper end of the rocking edge ( 18 ) being greater than a second thickness of the base portion ( 34 ) at the lower end of the rocking edge ( 18 ), wherein the transverse members ( 32 ) are comprised of at least a first type transverse member ( 32 ′) and a second type transverse member ( 32 ″), wherein the first thickness (D 1 ) of the base portion ( 34 ) at the upper end of the rocking edge ( 18 ) of the first type transverse member ( 32 ′) is greater than the first thickness (D 2 ) of the base portion ( 34 ) at a corresponding upper end of the rocking edge ( 18 ) of the second type transverse member ( 32 ″), and wherein an overall width of the first type tr