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Design method for the blanking length of each secondary spring of high-strength one-stage gradient stiffness leaf spring

A high-strength, leaf spring technology, applied in the field of vehicle suspension leaf springs, can solve the problem of not giving high-strength first-grade gradient stiffness leaf springs, difficult to obtain accurate blanking length design values, affecting material utilization and economic benefits. and other problems to achieve the effect of reducing design and test costs, saving materials, and improving processing technology

Inactive Publication Date: 2020-08-28
SHANDONG UNIV OF TECH
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  • Summary
  • Abstract
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  • Application Information

AI Technical Summary

Problems solved by technology

[0002] With the emergence of high-strength steel plate materials, high-strength one-level gradual stiffness leaf springs can be used, and a gradual gap between the main and auxiliary springs is designed between the upper surface of the first auxiliary spring and the lower surface of the last main spring to meet the different contact loads. Under the design requirements of gradient stiffness, suspension bias frequency and vehicle ride comfort, the surface of the auxiliary spring is neither a circular surface nor a slanted surface, let alone a parabolic surface, but a cubic curved surface. Therefore, according to the Spring span, using the traditional design method to design the blanking length of each secondary spring, it is difficult to get the precise blanking length design value, which not only affects production efficiency, but also affects material utilization and economic benefits
However, due to the complex calculation of leaf spring deflection, gradual clamping stiffness and secondary spring surface shape in the gradual change process, it is also affected by the calculation of the equivalent thickness of the overlapping part, the clamping stiffness of the main spring and the composite clamping stiffness of the main and secondary springs. Constraints on key issues. According to the research data, there has been no design method for the blanking length of each piece of secondary spring for high-strength grade-1 gradient stiffness leaf springs at home and abroad.

Method used

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  • Design method for the blanking length of each secondary spring of high-strength one-stage gradient stiffness leaf spring
  • Design method for the blanking length of each secondary spring of high-strength one-stage gradient stiffness leaf spring
  • Design method for the blanking length of each secondary spring of high-strength one-stage gradient stiffness leaf spring

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Embodiment

[0036] Embodiment: the width b=63mm of a certain high-strength one-level gradual stiffness leaf spring, half L of the saddle bolt clamping distance 0 =50mm, elastic modulus E=200Gpa. The number of main reeds n=2 pieces, the thickness h of each main spring 1 =h 2 =8mm, half of the active length of each main spring is L 1t =525mm,L 2t =450mm, half of the clamping length is L 1 = L 1t -L 0 / 2=500mm, L 2 = L 2t -L 0 / 2=425mm. The number of auxiliary reeds m = 3 pieces, the thickness h of each auxiliary reed A1 =h A2 =h A3 =13mm, half of the working length of each auxiliary spring is L A1t =350mm, L A2t =250mm,L A3t =150mm, half of the clamping length is L A1 = L A1t -L 0 / 2=325mm, L A2 = L A2t -L 0 / 2=225mm, L A3 = L A3t -L 0 / 2=125mm. The total number of sheets of primary and secondary springs N=5. Main spring initial tangent arc height design value H gM0 = 111mm. Start contact load P k =1842N. According to the structural parameters of each leaf spri...

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Abstract

The invention relates to a design method for the blanking length of each secondary spring of a high-strength one-stage gradually changing stiffness leaf spring, and belongs to the technical field of suspension leaf springs. According to the present invention, the structural parameters of each main spring and auxiliary spring, modulus of elasticity, initial tangent arc height of the main spring, and initial contact load are calculated based on the design of the initial tangent arc height of the auxiliary spring and the calculation of the initial surface shape of the first auxiliary spring. Surface micro-elements and superposition calculations are used to accurately design the unsprung length of each piece. It can be seen from the blanking process test of the prototype that the design method of the blanking length of each secondary spring of the high-strength one-level gradual stiffness leaf spring provided by the present invention is correct, which has laid an important technical foundation for the development of CAD software. The method can be used to obtain the accurate design value of the unsprung material length of each piece, which can increase the material saving rate, improve the processing technology, and increase the production efficiency; at the same time, the design and test costs are reduced, and the product development speed is accelerated.

Description

technical field [0001] The invention relates to a vehicle suspension leaf spring, in particular to a design method for the blanking length of each auxiliary spring of a high-strength one-stage gradually changing stiffness leaf spring. Background technique [0002] With the emergence of high-strength steel plate materials, high-strength one-level gradient stiffness leaf springs can be used. There is a gradual gap between the upper surface of the first auxiliary spring and the lower surface of the last main spring to meet the different contact loads. Under the design requirements of gradient stiffness, suspension bias frequency and vehicle ride comfort, the surface of the auxiliary spring is neither a circular surface nor a slanted surface, let alone a parabolic surface, but a cubic curved surface. Therefore, according to the Spring span, adopting the traditional design method to design the blanking length of each auxiliary spring, it is difficult to obtain the accurate blanki...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F30/20G06F30/17G06F30/15
CPCG06F30/15G06F30/17G06F30/20
Inventor 陈海真周长城杨腾飞袁光明赵雷雷汪晓邵明磊
Owner SHANDONG UNIV OF TECH
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