DE202010000305U1 - Spindle nut of a spindle drive made of filled plastic - Google Patents

Abstract

Spindle nut of a spindle drive for motor vehicles, in particular for motor vehicle seats and steering column modules, which is produced from a thermoplastic injection-molded plastic, characterized in that the plastic is filled with fibers (42), and that the fibers (42) have a length of at least 5 mm, preferably at least 8 mm and in particular not shorter than 10 mm.

Description

The The invention relates to a spindle nut of a spindle drive for motor vehicles, in particular for motor vehicle seats and steering column modules made of a thermoplastic in the Injection molding is made, and on one of these suitable injection molding compound.

Such a spindle drive with such a spindle nut is for example from the US 4,802,374 A previously known. The plastic nut is made of a hard plastic material. The spindle drive actuates an adjusting device; z. B. a motor vehicle seat, a steering column adjustment or the like ..

In the from the EP 1 103 411 B1 known spindle drive, the spindle nut has a peripheral metallic reinforcement by a cup-shaped reinforcing member, it is made of plastic. It can be produced by injection molding.

It is basically known, see for example Saechtling, Plastic pocketbook, 28th edition, Plastics made of reinforcing fibers to arm or fill. As reinforcing fibers are known glass fibers. Glass filaments in the form of 5 to 25 microns thick filaments are in the nozzle drawing process made endless. Short staple fibers can be blown off the fibers emerging from the nozzle are produced. There are different glass qualities that work together with make the plastic special, desired properties, such as the modulus of elasticity and / or the elongation at break targeted influence.

at currently practically used series products for seat adjusters it is known to use spindle nuts unfilled from POM. However, these have the disadvantage of limited temperature capability and expansion- or shrinkage-related game interpretation.

A Spindle nut for use in a spindle drive The type in question must be designed to be low backlash on a threaded rod, ie on the spindle, running, in a temperature range of -35 ° C up to 80 ° C. It should be the torque of the mother the threaded rod does not change significantly in this temperature range. In addition, the costs must be considered, the cost is given by unfilled standard materials like that called POM, offered z. B. as Delrin 100 (protected brand name). Previously known series solutions and from the literature become known spindle nuts either show the disadvantage that the torque behavior over the temperature range Change so much that driving with an electric motor is more common Size is no longer possible and it too a functional failure occurred that was above the temperature range for the user an unacceptable, expansion-related Game hangs, or that very high quality and costly Materials must be used, such. B. PEEK.

Here uses the invention. It has set itself the task of the spindle nut of the type mentioned above to improve that they have a has higher strength, low backlash on a threaded rod in the temperature range from -35 ° C to 80 ° C runs, with its torque over the temperature range does not change significantly and that they are in the budget of unfilled standard materials like POM.

These Task is solved by a spindle nut of a spindle drive for motor vehicles, in particular for motor vehicle seats, made of a thermoplastic injection-molded plastic is, characterized in that the plastic with glass fibers is filled, and that the glass fibers before insertion in the injection mold a length of at least 5 mm, preferably at least 8 mm and in particular not shorter than 10 mm.

By The filling with long glass fibers becomes a subjective operation play-free area allows. It will be spindle nuts especially in applications with typically high cycle demands, z. B. for easy entry systems, are particularly suitable. Cycle numbers are possible in applications in the automotive sector of 50,000 as opposed to 15,000 in motor vehicle seats without an easy-entry system.

The Spindle nut according to the invention fulfills the Requirements placed on them in a temperature range of -35 ° C up to 80 ° C. In particular, it has been tested for cycles proven by 50,000 cycles. It fulfills the static and dynamic strength requirements associated with a spindle drive be placed in the field of motor vehicle seats. It is price neutral compared to unfilled POM materials. It will be a Silent run achieved because of use of long glass fibers no fiber ends with a tendency to squeak At least in comparison to short fibers essential less fiber ends are free or can be free. Under Short fibers are understood to be fibers in the range 0.2 to 0.6 mm.

One Advantage of the invention lies in the fact that the spindle nut their mechanical properties over the life, for which it is designed to maintain.

For The reinforcement of plastics are short fibers made of glass known, the typical lengths are less than 0.6 mm, typically even less than 0.2 mm. Such glass fibers are in the plastic matrix in an elongated form. Only a small proportion occasionally small bending angles, which are usually below 10 °, to observe.

Of the Diameter of the fibers is in the range of 5-25 microns and is typically 10 microns. In that regard different short fibers and long fibers are not.

According to the invention now used glass fibers whose length is significantly larger is, the length is at least 5 mm, preferably at least 8 mm and in particular not less than 10 mm. Such fibers, hereinafter referred to as long fibers lie in the finished product, So in the spindle nut, no longer in an elongated form before, anyway at least one subgroup is no longer in an elongated form. To this subgroup includes at least 30%, preferably at least 60% and in particular at least 80% of the spindle nut contained long fibers. These are not straight or stretched Long fibers preferably have at least one bend in their course at least 90 °. This has the consequence that neighboring Long fibers with opposite bending hook and Whole adjacent glass fibers can get caught or crosslinked. It comes to a coherent ball of long glass fibers. One can imagine this, that the long fibers within the Spindle nut a fiber skeleton or a ball form a connection. Such relationships one finds with felting. In other words, the long fibers form within the spindle nut a widely felted, so open matted arrangement.

Would the spindle nut filled with short fibers, would Such a close arrangement of the individual fibers can not be found be and be undetectable. The long fibers have the advantage a mutual entanglement and formation of a tangle.

The Long fibers also have the advantage that they compared to a Filling a spindle nut with short fibers significantly less Have fiber ends. It turned out that in particular the fiber ends, which are near the surface of the Spindle nut to locate, cause problems because they, once exposed, or at least in the surface to cause noise, increased Wear of cooperating with the spindle nut Parts, such as the spindle, cause and thereby a total not suitable for high cycle numbers because of Duration bigger game and / or sounds to adjust.

In In one example, the invention uses instead of 20 times as many short fibers of length 0.5 mm, now the simple amount of long fibers with 10 mm length. In this For example, the number of fiber ends is reduced by 20 times. Higher reduction factors can be achieved by longer Reach glass fibers. If you remove the spindle nut after the Invention, the plastic matrix, for example, burns the Plastic residue-free, so remains a scaffold the glass fibers left, which forms an open fleece.

Preferably the quantity addition is in percent by weight or by volume Glass fibers in the range of 10-50%, preferably by 30% plus minus 10%, especially at about 30%.

Further Advantages and features of the invention will become apparent from the others Claims and the following description of not limiting to understood embodiments of the invention, with reference to the drawings closer be explained. In the drawing show:

1 a perspective view of a spindle drive with a spindle nut according to the present invention,

2 an enlarged view of the spindle nut after 1 .

3 a perspective view of another embodiment of a spindle nut,

4 a perspective view of two entangled pairs of long fibers in a basic, illustrative representation and

5 a perspective view of a portion of a spindle nut with each other entangled long fibers.

The first embodiment according to the 1 and 2 shows a longitudinally adjustable steering column module. A carrier 20 , which can be fixed to the underside of a dashboard in a motor vehicle, has two front side lobes 22 to which a support tube 24 is attached. In the support tube 24 is an upper steering column 26 slidably held in its longitudinal direction. It is with a lower steering column 28 in a rotationally fixed connection, but can be adjusted relative to this in the axial longitudinal direction within an adjustment range. With the upper steering column 26 is a holder 30 connected to which an electric motor 32 is attached. He drives a spindle 34 at. She passes through a spindle nut 36 , which by means of an L-shaped holding part on the support tube 24 is attached. The spindle nut 36 is about an axis that is transverse to the longitudinal direction of the steering columns 26 . 28 runs, and in the vehicle is parallel to the y-direction, rotatable. For this she has journals 43 ,

The spindle nut is in 2 shown in enlarged form. You can see the two end bearing journals 43 for the inclusion in the holding part and in the support tube 24 , Otherwise has the spindle nut 36 a substantially cubic housing, see box 44 , It has a threaded hole 38 for the spindle 34 ,

3 shows another embodiment of the spindle nut 36 , which is produced according to the invention.

4 shows in dashed lines in principle the outline of the cuboid 44 a spindle nut 36 as in the first embodiment. The diameter of a typical spindle is in the range of 4-12 mm, accordingly, the dimensions of the above-mentioned cube are approximately in the range of 2-4 cm side length. Accordingly, the dashed frame in 4 sized. 4 shows two pairs of long fibers 42 , These are shown to be unevenly thick, since their actual thickness dimensions would lead to a very thin line and thus the entanglement, which is based on the 4 should be explained, would be difficult to see. In their length, however, the long fibers correspond to the actual length within the spindle nut 36 , It can be seen that the long fibers 42 have a length that is greater than 10% of any length dimension of the spindle nut 36 is, in particular greater than 30% and preferably greater than 50%. These statements on length apply before the passage of long fibers through an injection molding nozzle, they also apply to the long fibers within the spindle nut 36 ,

At the Injection molding breaks the long fibers. The before passage Lengths present through an injection molding nozzle the long fibers are no longer preserved thereafter. Experience remains especially lengths greater than 10 mm not receive. But it is also true that short fibers, as they stand the technique used, their initial length before the Injection molding in the spindle nut not retained, but shorter are.

As 4 shows, are the long fibers 42 , is in any case a subgroup of long fibers 42 , in the spindle nut 36 not in an elongated, straight shape, but has bends, the curvatures are at least 90 ° and can be larger. Every single fiber 42 has at least one curvature, preferably several bends are present. Any shapes may arise, for example, Z-shaped gradients, S-shaped gradients, screw benlinienförmige courses and the like. As far as shows 4 only a schematic diagram to explain the basic principle of entanglement can.

As 4 shows are the two pairs of long fibers shown 42 so interconnected that they have a certain connection, so more or less form a unity. The fiber pair shown on the top right appears in the view, the 4 gives as X-shaped. If you turn the spindle nut, you also get a gaze position in which the pair of fibers shown below left X-shaped.

5 is an attempt, the felting or the open fleece to long fibers within the spindle nut 36 display. As the figure shows, the leads from 4 explained entanglement for only one considered pair with consideration of other adjacent fibers to a spatial, so three-dimensional irregular entanglement of the fibers. Since the volume content is typically 30% of glass fibers, sufficient glass fibers are available for mutual entanglement. Insofar serves 4 just the explanation. In fact, there is a multiple entanglement.

Characteristic of the spindle nut according to the invention is that the entanglement of the glass fibers is irregular and insofar no spindle nut is the same as another. The formation of a loose fleece within the spindle nut 36 and made of glass fibers results from the respective injection process. As a result, each individual, inventively manufactured spindle nut 36 in principle customizable, provided that the appropriate analysis methods are used.

in principle it is also possible to use other fibers, for example Carbon, PPTA, PMPI, CF reinforcing fibers, natural fibers and the like. The use of glass fibers has basically proven and is inexpensive. Please refer this also the o. g. Book of the author Saechtling.

The Applicant reserves the right to any features and sub-features from the description and / or from the claims to combine with each other.

When thermoplastic is a low-cost polypropylene PP uses, but also other low-cost thermoplastic base materials are possible. As advantageous, the use of PP-C, a copolymer proved.

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

• - US 4802374 A [0002]
• - EP 1103411 B1 [0003]

Claims (8)

Spindle nut of a spindle drive for motor vehicles, in particular for motor vehicle seats and steering column modules, which is produced from a thermoplastic injection-molded plastic, characterized in that the plastic with fibers ( 42 ) and that the fibers ( 42 ) have a length of at least 5 mm, preferably at least 8 mm and in particular not shorter than 10 mm. Spindle nut according to claim 1, characterized in that in the finished spindle nut ( 36 ) a subgroup of the glass fibers ( 42 ) is not linearly extending and has at least one bend by at least 90 °, and that this subgroup at least 30%, preferably at least 60% and in particular at least 80% of in the spindle nut ( 36 ) contained glass fibers ( 42 ) is. Spindle nut according to claim 2, characterized in that within the subgroup of glass fibers ( 42 ) at least half of these glass fibers ( 42 ) is oriented so that an arbitrarily picked out glass fiber and one of these adjacent glass fiber are hooked into one another and together form an X in particular in a particular viewing direction. Spindle nut according to claim 2 or 3, characterized in that at least 50% of the subgroup of glass fibers ( 42 ) within the spindle nut ( 36 ) forms a coherent ball, and that preference, the glass fibers ( 42 ) in total within the spindle nut ( 36 ) form a coherent ball. Spindle nut according to one of the preceding claims, characterized in that the fibers are glass fibers ( 42 ) are. Spindle nut according to one of the preceding claims, characterized in that the glass fibers ( 42 ) are present as filaments with a diameter between 5 and 25 microns. Injection molding compound for producing a spindle nut of a spindle drive for motor vehicles, in particular for motor vehicle seats and steering column modules, the injection molding compound comprises a thermoplastic material which is suitable for an injection molding process and contains fibers ( 42 ), characterized in that the fibers ( 42 ) in the injection molding compound have a length of at least 5 mm, preferably at least 8 mm and in particular not shorter than 10 mm. Injection molding compound according to claim 7, characterized in that the fibers are glass fibers ( 42 ) are.