DE202004000621U1 - Spring element consists of a hollow cylindrical damping member based on a polyisocyanate polyaddition product - Google Patents

Abstract

A spring element based on a hollow cylindrical damping element (i) based on a polyisocyanate-polyaddition product, is 78-80mm tall, has a maximum outer diameter of 38-40mm and a hollow chamber diameter of 16-20mm. The element has two circumferential cut-outs (vi,vii) on its outer surface, between heights (ix) 30-32mm and 55-57mm (x). The element also has two inner widened sections (xx) which increase the internal diameter. The element is based on cellular polyurethane elastomers.

Description

The invention relates to spring elements based on a hollow cylindrical damping element (i) based on polyisocyanate polyaddition products, preferably based on cellular polyurethane elastomers, which may optionally contain polyurea structures, particularly preferably based on cellular polyurethane elastomers, preferably with a density according to DIN 53420 from 200 to 1100, preferably 300 to 800 kg / m ³ , a tensile strength according to DIN 53571 of ≥ 2, preferably 2 to 8 N / mm ² , an elongation according to DIN 53571 of ≥ 300, preferably 300 to 700% and a tear resistance according to DIN 53515 of ≥ 8, preferably 8 to 25 N / mm, with a height (ii) of 78 mm to 80 mm, preferably 79 mm, a maximum outer diameter (iii) between 38 mm and 40 mm, preferably 39 mm, a diameter (iv) of the cavity between 16 mm and 20 mm, preferably 17 mm to 19 mm, two circumferential constrictions (vi) and (vii) on the outer surface of the damping element (i), which si ch at a height (ix) of 30 mm to 32 mm, preferably 31 mm, and at a height (x) of 55 mm and 57 mm, preferably 56 mm, as well as two circumferential extensions (xx) of the cavity, which are the diameter (xi) of the cavity to 22 mm to 26 mm, preferably 24 mm, and which extend at a height (xii) between 42 mm and 45 mm, preferably 43.5 mm, and at a height (xii) between 65 mm and 70 mm, preferably 67.5 mm. In addition, the invention relates to automobiles containing the spring elements according to the invention.

Suspension elements made from polyurethane elastomers are used in automobiles, for example, within the chassis and are generally known. They are particularly common in motor vehicles as vibration damping Spring elements used. Take it over the spring elements have an end stop function, influence the force-displacement identification of the wheel by forming or reinforcing a progressive characteristic of the Vehicle suspension. The vehicle's pitching effects can be reduced and the roll support is amplified. The starting stiffness is particularly due to the geometric design optimized, this has significant Influence on the suspension comfort of the vehicle. Through the targeted The design of the geometry almost results over the service life constant component properties. This function increases driving comfort elevated and maximum driving safety guaranteed.

Because of the very different The characteristics and properties of individual automobile models must be Spring elements individually to the different car models be adjusted to achieve an ideal suspension set-up. For example can the weight of the vehicle when developing the spring elements, the chassis of the special model, the intended shock absorbers as well the desired Spring characteristics taken into account become. Add to that for different Automobiles available due to this standing installation space individual, coordinated with the construction individual solutions must be invented.

For the reasons mentioned above, the known solutions for the Design of individual spring elements is not generally transferred to new automobile models become. With every new development of an automobile model must a new shape of the spring element will be developed that matches the specific Requirements of the model. Here are special requirements to call:

• - Softer commitment
• - More defined Force / Itinerary
• - Defined travel limitation
• - usage of the limited space

Object of the present invention it was therefore for a special, new automobile model a suitable additional spring with the above functions to develop the specific This model meets the requirements and one if possible good driving comfort and excellent driving safety guaranteed.

The spatial configuration of the spring elements, i.e. its three-dimensional shape has a decisive one in addition to its material Influence their function. about the shape of the spring elements are the functions mentioned above specifically controlled. This three-dimensional shape of the spring element must therefore be individual for any automobile model can be developed.

These requirements are met by the spring elements shown at the beginning. The spring elements according to the invention are exemplified in detail in the 1 and 2 shown. The dimensions given are given in [mm] in all the figures. This three-dimensional shape proved to be particularly suitable to meet the specific requirements of the special automobile model, especially with regard to the specific spatial requirements and the required spring characteristics.

The spring element preferably has in the constrictions (vi) and (vii) an outer diameter (xv) from 32 mm.

The bodies (i) according to the invention are preferably based on elastomers based on polyisocyanate polyadducts, for example polyurethanes and / or polyureas, for example polyurethane elastomers, which may optionally contain urea structures. The elastomers are preferably microcellular elastomers based on polyisocyanate polyadducts, preferably with cells with a diameter of 0.01 mm to 0.5 mm, particularly preferably 0.01 to 0.15 mm. Particularly preferred the elastomers have the physical properties shown at the beginning. Such elastomers based on polyisocyanate polyaddition products and their preparation are generally known and can be described in many different ways, for example in EP-A 62 835, EP-A 36 994, EP-A 250 969, DE-A 195 48 770 and DE-A 195 48 771.

The production is usually done by reacting isocyanates with compounds reactive towards isocyanates.

The elastomers based on cellular polyisocyanate polyadducts are commonly used manufactured in a form in which the reactive starting components implemented with each other. Commonly used shapes come here into question, for example metal molds, which due to their shape the three-dimensional according to the invention Ensure the shape of the spring element.

The production of the polyisocyanate polyaddition products can be carried out according to generally known methods, for example by doing the following in a one or two step process Starting materials used:

• (a) isocyanate,
• (b) opposite Isocyanate-reactive compounds,
• (c) water and optionally
• (d) catalysts,
• (e) blowing agent and / or
• (f) auxiliaries and / or additives, for example polysiloxanes and / or fatty acid sulfonates.

The surface temperature of the mold inner wall is usually 40 to 95 ° C, preferably 50 to 90 ° C. The production of the molded parts is advantageously carried out at one NCO / OH ratio carried out from 0.85 to 1.20, being the warmed Starting components mixed and in one of the desired Part density corresponding amount in a heated, preferred tightly sealing Mold are brought.

The molded parts are after 5 to 60 Minutes cured and therefore demoldable. The amount of put in the mold Reaction mixture is usually dimensioned such that the molded bodies obtained are those already shown Have density.

The starting components are usually at a temperature of 15 to 120 ° C, preferably from 30 to 110 ° C, in the Forming tool introduced. The degrees of compaction for manufacture the molded body are between 1.1 and 8, preferably between 2 and 6.

Claims (4)

Spring element based on a hollow cylindrical damping element (i) based on polyisocyanate polyadducts with a height (ii) from 78 mm to 80 mm, a maximum outer diameter (iii) between 38 mm and 40 mm, a diameter (iv) of the cavity between 16 mm and 20 mm, two circumferential constrictions (vi) and (vii) on the outer surface of the damping element (i) that are at a height (ix) from 30 mm to 32 mm and at a height (x) of 55 mm and 57 mm as well as two circumferential extensions (xx) of the cavity, which expand the diameter (xi) of the cavity to 22 mm to 26 mm and which is at a height (xii) between 42 mm and 45 mm and at a height (xiii) between 65 mm and 70 mm. Spring element according to claim 1, characterized in that the spring element in the constrictions (vi) and (vii) an outer diameter (xv) of 32 mm. Spring element according to claim 1, characterized in that the damping element (i) on cells Polyurethane elastomers based. Spring element according to claim 1, characterized in that the damping element (i) on cellular polyurethane elastomers with a density according to DIN 53420 of 200 to 1100 kg / m ³ , a tensile strength according to DIN 53571 of ≥ 2 N / mm ² , an elongation according to DIN 53571 of ≥ 300% and a tear resistance according to DIN 53515 of ≥ 8 N / mm.