DE102007017991A1 - Leaf spring made of a fiber-plastic composite material and force introduction element for the same - Google Patents

Abstract

The invention relates to a leaf spring (1, 1 ', 1' ') made of a fiber-plastic composite material in which the fibers (2) extend unabridged from one axial end of the leaf spring to its other end and are embedded in a plastic. On the one hand to be able to exclude axial movements of the leaf spring in the installed state on a vehicle and on the other hand to have an undestroyed structure in the leaf spring is provided according to the invention that the leaf spring (1, 1 ', 1' ') in the region of a central mounting portion (20) perpendicular to its longitudinal axis (19) has at least one constriction (15, 16) into which a force introduction element (21, 22) is positively and non-positively insertable. The invention also relates to a force introduction element (21, 22) for holding such a leaf spring (1, 1 ', 1' ').

Description

The Invention relates to a leaf spring made of a fiber-plastic composite material, in which the fibers are uncut from one axial end of the Leaf spring to the other end and in a plastic are embedded, and a force introduction element for this leaf spring.

A leaf spring with such a fiber profile is for example from the DE 10 2004 010 768 A1 known. As the fiber composite leaf spring according to the DE 102 21 589 A1 clarifies, this has to fulfill their intended use on a medium force application area and two other force application areas at their axial ends. These force introduction areas are used for fastening the leaf spring by means of separate fastening elements on the vehicle structure or on chassis components, so as to enable a cushioning of the same. While the end-side force introduction regions are immovably articulated by means of the fastening elements to the components assigned to them, it can not be ruled out to date that the central fastening region performs an undesired axial movement during deflection. This can lead to damage of the leaf spring structure, since the curved leaf spring is usually encompassed and fixed in this central force introduction region of metallic and half-shell fasteners.

One Pierce the fiber composite leaf spring and insert a centering device is especially for smaller and narrow as well as thin Leaf springs no alternative, because when drilling through the leaf spring many of their fibers are severed unfavorably. If in fiber composite leaf springs Nevertheless, such a technical solution is preferred, so goes this is accompanied by a broadening of the leaf spring to the occurring Loads during the intended life unscathed to be able to record.

In order to avoid damage to such a fiber composite leaf spring in the middle mounting area, is in the EP 0 425 880 A1 proposed to arrange an intermediate layer between the metallic force introduction element and the spring body, which consists of a pourable and curing plastic. Although the spring body is protected by the introduction of a protective layer between the same and the metallic fastener, but the production of such a fastening arrangement is judged to be very expensive and therefore expensive. In addition, it can not be ruled out that during use of the leaf spring on a vehicle, the movements occurring stress the intermediate layer in such a way that their destruction occurs before the end of life of the leaf spring and thus also jeopardizes or makes it unusable.

In front In this background, the invention is based on the object To present a leaf spring made of a fiber-plastic composite formed in their middle attachment portion such is that one for this damage-free connection possible with a related force introduction element is. In this case, the leaf spring should not be severed by individuals Fibers to this uncut from one to another axial end of the same run. In addition, should by the Training the leaf spring can be achieved that this at her Do not use any axial movement in its middle attachment section performs.

The Solution to this problem is achieved by a fiber composite leaf spring achieved with the features of the main claim. In another independent claim is a force introduction element presented, which with the inventive Leaf spring cooperates. Advantageous developments and refinements are the respective associated subclaims removable.

Of the Invention is based on the finding that by a corresponding Shaping the leaf spring during its manufacture a force introduction element can be created in the components of this force introduction element positive and non-positive can be used. This form and adhesion between leaf spring and Force application element allows safe and on a comparatively large area distributed force application in the leaf spring. Therefore, the mechanical stress of the leaf spring in the direction of their longitudinal extension during their Use on the one hand low, on the other hand, an axial movement the leaf spring because of the positive and non-positive latching safely avoided between the components mentioned.

Therefore The invention relates first to a leaf spring from a Fiber-plastic composite, in which the fibers are unabridged from an axial end of the leaf spring to its other end and embedded in a plastic. To solve the Asked task is also provided that the leaf spring in Area of a central mounting portion perpendicular to her Has longitudinal axis at least one constriction, in the one Part of a force introduction element positive and non-positive can be used.

According to one embodiment of the leaf spring according to the invention it is provided that these in the region of the central mounting portion perpendicular to its longitudinal axis and perpendicular to at least one constriction has at least one bulge, on which a part of the force introduction element is positively and non-positively placed. With this structure, the leaf spring allows that it can be encompassed on this side positive and non-positive components of the force introduction element, on this part of the force introduction element, a leaf spring further fixing surface pressure can be exerted on both sides.

Prefers can be provided that the leaf spring two opposite Constrictions and two opposite bulges in its cross-sectional profile.

at a use of the leaf spring in a vehicle, for example in a motor vehicle, in particular in a commercial vehicle, is preferably provided that the constrictions in those areas of the leaf spring are formed, the surface normal after installation the leaf spring in a vehicle are oriented substantially horizontally, and that the bulges in those areas the leaf spring are formed whose surface normal in built-in state of the leaf spring is oriented substantially vertically are.

Around make the production of the leaf spring cost to be able to, is provided in a further embodiment, that the fiber volume of those fibers and the plastic volume of that plastic, in the shaping of the leaf spring from the range of at least a constriction were displaced, in the area of at least a bulge are arranged. By this construction is achieved that the fiber volume and the plastic volume along the longitudinal extension of the leaf spring in any case not in that area to the changed leaf spring geometry must be adapted, at which the middle force introduction element is attached. Preference is even, except for the end sections, over approximately the entire length of the leaf spring Fiber composite volume per unit length constant held.

Regarding the depth of the at least one constriction in the leaf spring is a Value of 5% to 15% of the width of the leaf spring considered sufficient, to the desired positive connection between the leaf spring and to ensure the middle force application element.

The Height of at least one bulge arises preferably by the displaced in the region of constrictions Material volume of the spring body and the axial length the bulge. As beneficial has in a certain Build a value for the height of the bulge from 10% to 20% of the total height of the leaf spring in the range exposed to this bulge. If two opposite Buckles are formed on the leaf spring, the Height of each bulge between 5% and 10% the total height of the leaf spring in the region of these bulges be. The axial length of the constrictions and the bulges is preferably approximately identical.

Regarding the materials of the leaf spring according to the invention become unidirectionally oriented synthetic fibers or synthetic fiber fabrics preferred, wherein the fibers, for example, as glass fibers or carbon fibers are formed while as plastic an epoxy resin matrix or a thermoplastic matrix is preferred.

As already mentioned, the leaf spring according to the Invention especially for installation in a motor vehicle suitable and has next to the middle force introduction section at their axial ends in each case a further force introduction section on.

The The invention also relates to a force introduction element for a fiber composite leaf spring, at least according to some the described inventive features is formed. It is thus provided that the force introduction element is designed in several parts is, wherein at least a first fastener for the form and non-positive engagement in the at least one recess the leaf spring is formed, while at least a second fastening element for resting on the at least one bulge of the leaf spring is trained.

Around It is also intended to be able to receive the leaf spring safely. in that the fastening elements of the force introduction element can be connected to one another are formed. The connection of the individual fasteners preferably by means of screws.

In a further embodiment of the force introduction element is provided, that the first fastening elements are designed as angle pieces, with at least one, engaging in the recess of the leaf spring Thigh, and with at least one leaf spring over her Width at least partially under intervening leg.

One Another feature of the force introduction element is that the first Fasteners as in cross-section L-shaped brackets or as in cross-section U-shaped elbows are formed. In contrast, the mentioned second Fixing elements in cross-section plate-shaped or designed as U-shaped angle pieces.

To further explain the invention, the description is accompanied by a drawing. In this several embodiments are shown, which will be discussed below. In detail shows

1 a schematic plan view of a leaf spring according to the invention with an indicated fiber profile, in the lateral constrictions fasteners of a force introduction element are inserted,

2 a side view A of the leaf spring according to 1 in which a bulge of the same is recognizable,

3 2 a further side view of a leaf spring with two bulges and a force introduction element with two fastening elements which are U-shaped in cross-section,

4 a cross section BB through the leaf spring assembly according to 2 but in the bolted condition, and

5 a cross section CC through the leaf spring assembly according to 3 ,

The leaf spring 1 is in 1 shown in such a way that is looked at that side, which points at installation in a vehicle downwards or upwards, which is why the surface normal is oriented substantially vertically in the vehicle. The 2 and 3 show a leaf spring 1' . 1'' from that long side whose surface normal is aligned substantially horizontally after installation of the leaf spring in a vehicle.

Accordingly, shows 1 schematically a fiber composite leaf spring 1 whose fibers 2 over the entire axial length of the same run unabridged or not interrupted. This guarantees a very high load capacity of the leaf spring with relatively small dimensions. In the manufacture of the leaf spring 1 was this, preferably formed by horizontally depositing individual prepreg layers in a mold so that in a central mounting portion 20 the same two constrictions 15 . 16 are formed in the cross-sectional profile, the shape of the fibers 2 uninjured follow. The two constrictions 15 and 16 lace the leaf spring 1 in a direction perpendicular to the longitudinal axis 19 one, wherein the axial ends of the constrictions 15 . 16 Axial leakage at an angle that deviates from a right angle. The depth t of constrictions 15 . 16 is about 5% to 15% of the leaf spring width b.

While in the first restriction 15 already designed as an angle fastener 5 a force introduction element 21 is used, takes place in the illustrated situation of 1 just the pivoting of a second formed as an angle fastener 6 , These angle pieces 5 . 6 have on a leg on such a geometry that this form-fitting in the respective associated constriction 15 respectively. 16 can be inserted. With a second leg 7 engage the contra-angles 5 . 6 the leaf spring 1 . 1'' over its width b completely or only partially.

The in the use of inexpensive producible rectangular prepreg layers by the shape of the leaf spring 1 . 1' . 1'' in the area of constrictions 15 . 16 resulting excess material used in the production of the same, as the side view A of the leaf spring 1' in 2 shows, for the formation of at least one bulge 3 whose height h is about 10% to 20% of the total height H of the leaf spring 1 . 1' accounts. The bulge 3 rises to the leaf spring 1 . 1' . 1'' in a direction perpendicular to its longitudinal axis 19 and perpendicular to the constrictions 15 . 16 is aligned.

As 2 clarified, the two are designed as angle pieces fasteners 5 . 6 with another fastener 10 of the force introduction element 21 firmly connectable, which on the top of the bulge 3 is arranged. In the fasteners 5 . 6 and 10 introduced holes 8th . 9 . 11 . 12 with screw thread allow the screwing and tightening of mounting screws 17 and 18 so that the fasteners 5 . 6 . 10 are captively connected to each other and the force application element 21 after its connection with a stationary vehicle component, the leaf spring 1 . 1' axially immovable clamps.

In the 3 illustrated leaf spring 1'' has largely the same structure and the same geometry as the leaf springs 1 . 1' according to the 1 and 2 , However, it has two bulges 3 and 4 whose total volume corresponds to that volume, which by the formation of the two constrictions 15 and 16 displaced at these points in the spring body wor is the. The clamping of this leaf spring 1'' in its middle attachment section 20 However, it is done with a force introduction element 22 , which consists of two substantially U-shaped fasteners 13 and 14 is constructed by means of threaded holes 8th . 9 . 11 . 12 screwed in screws 17 . 18 are held together. For attachment of the force introduction element 22 on a stationary vehicle structure, one serves on the upper U-shaped fastening element 13 welded bolt 23 ,

The 4 and 5 show schematic cross-sectional views of the leaf springs 1' and 1'' in the sectional planes BB and CC of the 2 and 3 , As in both 4 and 5 can be seen, grab the vertical legs of the angle pieces trained fasteners 5 . 6 respectively. 13 . 14 in the constrictions 15 and 16 the leaf springs 1' and 1'' a positive fit. While at the leaf spring 1' according to 4 the only one, upper bulge 3 from a plate-shaped fastening element 10 of the force introduction element 21 is covered according to 5 the two fasteners 13 and 14 of the force introduction element 22 formed substantially U-shaped, with their longer, upper and lower legs on the respective associated bulges 3 respectively. 4 rest, and their short thighs in the constrictions 15 . 16 the leaf springs 1' . 1'' engage positively and non-positively.

1

leaf spring

2

fiber

3

Upper upheaval

4

Lower upheaval

5

first Fixing element, angle piece

6

first Fixing element, angle piece

7

Lower leg of the elbow 6

8th

drilling

9

drilling

10

second Fastener, plate

11

drilling

12

drilling

13

second Fastening element, upper angle piece

14

first Fastener, lower elbow

15

constriction

16

constriction

17

screw

18

screw

19

longitudinal axis the leaf spring

20

middle Attachment section of the leaf spring

21

Force application element

22

Force application element

23

bolts

b

width the leaf spring

t

depth the narrowing

H

height the bulge

H

total height the leaf spring

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102004010768 A1 [0002]
• - DE 10221589 A1 [0002]
• EP 0425880 A1 [0004]

Claims (15)

Leaf spring ( 1 . 1' . 1'' ) of a fiber-plastic composite material, in which the fibers ( 2 ) extend unabridged from one axial end of the leaf spring to the other end and are embedded in a plastic, characterized in that the leaf spring ( 1 . 1' . 1'' ) in the region of a middle fastening section ( 20 ) perpendicular to its longitudinal axis ( 19 ) at least one constriction ( 15 . 16 ) into which a component of a force introduction element ( 21 . 22 ) can be used positively and non-positively. Leaf spring according to claim 1, characterized in that the leaf spring ( 1 . 1' . 1'' ) in the region of the middle attachment section ( 20 ) perpendicular to its longitudinal axis ( 19 ) and perpendicular to at least one constriction ( 15 . 16 ) at least one bulge ( 3 . 4 ), to which a component of the force introduction element ( 21 . 22 ) can be placed positively and non-positively. Leaf spring according to claim 1 or 2, characterized in that the leaf spring ( 1 . 1' . 1'' ) two opposite constrictions ( 15 . 16 ) having. Leaf spring according to claim 2 or 3, characterized in that the leaf spring ( 1'' ) two opposite bulges ( 3 . 4 ) having. Leaf spring according to Claims 3 and 4, characterized in that the constrictions ( 15 . 16 ) in those surfaces of the leaf spring ( 1 . 1' . 1'' ) are formed whose surface normal after installation of the leaf spring in a vehicle are oriented substantially horizontally, and that the bulges ( 3 . 4 ) in those surfaces of the leaf spring ( 1 . 1' . 1'' ) are formed, the surface normal in the installed state of the leaf spring are aligned substantially vertically. Leaf spring according to at least one of claims 1 to 5, characterized in that the fiber volume of those fibers ( 2 ) and the plastic volume of that plastic, which in the shaping of the leaf spring ( 1 . 1' . 1'' ) from the range of at least one restriction ( 15 . 16 ), in the area of at least one bulge ( 3 . 4 ) are arranged. Leaf spring according to at least one of claims 1 to 6, characterized in that the depth (t) of the at least one constriction ( 15 . 16 ) a value of 5% to 15% of the width (b) of the leaf spring ( 1 . 1' . 1'' ) Has. Leaf spring according to at least one of claims 1 to 7, characterized in that the height (h) of the at least one bulge ( 3 . 4 ) has a value of 10% to 20% of the total height (H) of the leaf spring ( 1 . 1' . 1'' ) Has. Leaf spring according to at least one of claims 1 to 8, characterized in that the fibers ( 2 ) are formed as unidirectionally oriented synthetic fibers or as synthetic fiber fabric, for example of glass fibers or carbon fibers, and that the plastic is an epoxy resin matrix or a thermoplastic matrix. Leaf spring according to at least one of claims 1 to 8, characterized in that the leaf spring ( 1 . 1' . 1'' ) is designed for installation in a motor vehicle, and next to the middle force introduction section ( 20 ) has at its axial ends in each case a further force introduction section. Force introduction element for a leaf spring ( 1 . 1' . 1'' ) according to at least one of claims 1 to 10, characterized in that the force introduction element ( 21 . 22 ) is formed in several parts, wherein at least a first fastening element ( 5 . 6 ) for the positive and non-positive engagement in the at least one recess ( 15 . 16 ) of the leaf spring ( 1 . 1' . 1'' ) is formed, and that at least one second fastening element ( 10 . 13 . 14 ) for resting on the at least one bulge ( 3 . 4 ) of the leaf spring is formed. Force introduction element according to claim 11, characterized in that the fastening elements ( 5 . 6 . 10 ; 13 . 14 ) are formed interconnected. Force introduction element according to claim 12, characterized in that the first fastening elements ( 5 . 6 . 14 ) are formed as angle pieces, with at least one, in the recess ( 15 . 16 ) of the leaf spring ( 1 . 1' . 1'' ) engaging legs, and with at least one of the leaf spring ( 1 . 1' . 1'' ) over its width (b) at least partially engaging legs ( 7 . 14 ). Force introduction element according to claim 13, characterized in that the first fastening elements ( 5 . 7 ; 6 . 7 ; 13 ) are designed as cross-sectionally L-shaped elbows or as U-shaped in cross-pieces. Force introduction element according to claim 13, characterized in that the second fastening elements ( 10 ; 13 ) are plate-shaped in cross-section or formed as U-shaped angle pieces.