Double wishbone or mcpherson suspension with transverse leaf spring and dimensioning method thereof

A technology of transverse plates and suspensions, applied in the direction of suspensions, elastic suspensions, vehicle springs, etc., which can solve the problems of reducing vehicle performance, increasing weight and size, etc.

Active Publication Date: 2017-02-22
IVECO SPA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0009] According to the prior art, the above results have to be achieved by using anti-roll bars, where the associated elements of the anti-roll bar connect the bar to the vehicle body an

Method used

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  • Double wishbone or mcpherson suspension with transverse leaf spring and dimensioning method thereof
  • Double wishbone or mcpherson suspension with transverse leaf spring and dimensioning method thereof
  • Double wishbone or mcpherson suspension with transverse leaf spring and dimensioning method thereof

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Embodiment Construction

[0026] figure 1 A quadrilateral suspension with transverse leaf springs dimensioned by the method of the invention is shown. The method of the invention is also applicable to MacPherson arrangements.

[0027] Since the axles are symmetrical about the axis M, only the half shafts are shown.

[0028] The fixed portion C defines the structural part of the body to which the suspension of the same axle is connected.

[0029] The lower arm AL is shown generally substantially V-shaped or Y-shaped, the two forked ends of the lower arm AL being hinged to the fixed part C by means of a hinge X1 . The apex V1 of the lower arm opposite the aforementioned forked end is connected to the lower part of the hub SP by means of a ball joint X2.

[0030] Also shown is the upper arm AU, also generally substantially V-shaped or Y-shaped, the two forked ends of which are hinged to the fixed part C by means of a hinge X3 above the hinge X1. The apex V2 of the upper arm AU is connected to the uppe...

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Abstract

Method for dimensioning a quadrilateral or McPherson suspension (S) with cross leaf spring (LS) defining a longitudinal development (Y), arranged parallel to a symmetrical vehicle axle defined by the suspension (S), having an intermediate point of reference (M), an end point (L/2) connected to a lower arm (AL) of the suspension and a constraint point (1/2), intermediate between the first two, constrained to a fixed part (C), said method comprising a step of defining the following distances measured along said longitudinal development (Y) starting from said intermediate point of reference (M) : - P = distance of the connection (X2) between lower arm (AL) and wheel hub (SP), - L/2 = distance from said end point (L/2) of the leaf spring (LS), - H = distance of the hinging between said first part of the lower arm and said fixed part (C), - 1/2 = distance of said intermediate constraint point (1/2); - a step of defining with d a difference/distance between H and L/2 and with b a difference/distance between H and P, - a step of defining R = b/ (b-d), - a step of defining ks = ksosp * R2 [eq.l], where ks is the stiffness of the leaf spring upon symmetrical vertical loads and ksosp is the stiffness of the suspension upon symmetrical vertical loads, - a step of defining a thickness h of said leaf spring (LS) according to the following equations: - h = hO between said reference intermediate point (M) and 1/2, - h(Y) = 2* ( (Y- (costi) ) / (cost2) )0-5 between 1/2 and L/2 [eq. 2 ], where Y is an independent variable, costi = 1015.00942 and cost2 = -8.51224 and wherein the material of said leaf spring has a Young module comprised between 195 GPa and 210 GPa.

Description

technical field [0001] The invention relates to the field of vehicle suspensions, in particular to a method of dimensioning a quadrilateral or MacPherson suspension with transverse leaf springs, and to the suspension obtained by this method. Background technique [0002] Quad suspensions with transverse leaf springs have been used for many years, especially for the front suspension of industrial vehicles. [0003] To ensure optimum dynamic characteristics, these independent wheel suspensions are often supplemented by anti-roll bars, which connect the chassis to components of the suspension - such as lower arms, shock absorbers, etc. - to limit the vehicle's Rolling motion. [0004] Anti-roll bars have no effect when the suspension of the same axle is subjected to symmetrical vertical loads. On the other hand, the anti-roll bar cooperates with the suspension in a manner commensurate with the difference between the vertical loads acting on the suspension of the same axle. ...

Claims

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Application Information

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IPC IPC(8): B60G11/08B60G3/06B60G3/20
CPCB60G3/06B60G3/20B60G11/08B60G2200/142B60G2200/144B60G2202/114B60G2206/99
Inventor 费德里科·皮亚斯科洛伦佐·阿尔基泰托
Owner IVECO SPA
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