DE102017119652B3 - Strut mounts - Google Patents

Abstract

Suspension strut bearing (1), comprising a guide ring (2) and a cap (4), wherein on the guide ring (2) a latching collar (6) and on the cap (4) one or more snap-action lugs (7) are provided under the latching collar (6), wherein the cap (4) is a 2-component plastic part having a hard component (9) and a soft component (8) forming an axially extending annular portion (11) with the snap lugs (7), wherein on the annular portion (11) one or more the annular portion (11) radially stiffening separate stiffening elements (13) are arranged.

Description

The invention relates to a suspension strut bearing, comprising a guide ring and a cap, wherein on the guide ring a latching collar and on the cap one or more snap lugs are provided which snooze under the latching collar, wherein the cap is a 2-component plastic part with a hard component and a soft component which is an axially extending annular portion with the snap lugs is.

Such strut bearing as in the generic DE 10 2013 222 727 A1 described, is part of the suspension of independent suspension. The suspension supports a desired driving safety and driving comfort as well as easy and precise steering of the wheels. A strut bearing usually comprises a guide ring and a cap, between which a bearing is formed, so that both are rotatable relative to each other. The guide ring is usually a coil spring superimposed while the cap is connected on the body side. The suspension strut bearing absorbs the radial-axial forces transmitted via the shock absorber and the coil spring and ensures that the shock absorber spring can rotate without friction and tension during steering and compression.

The guide ring is usually connected via a snap or latching connection with the cap. For this purpose, a locking collar is usually on the guide ring and there are several snap tabs provided on the cap, which snuggle under the catch collar. These snap noses are at the DE 10 2013 222 727 A1 known strut bearing from the soft component of the 2-component plastic part, as which the cap is formed formed. In order to radially support this soft component in the region of the snap-in lugs, a radially inner, cylindrical collar is formed over the hard component, which extends along the corresponding section of the soft component to beyond the region of the snap-in lugs.

This structure is relatively complicated, and the production is complicated. Because of the form-fitting, engaging in the guide ring undercut of the soft component, so the snap lugs, is produced in the tool by so-called forced removal. However, since the hard component before the soft component is injected into the tool, it hinders the demolding and sometimes contributes to a damage of the undercut, so the snap lugs at. Therefore, the dimensions of the undercut must be kept small from the outset, which in turn adversely affects the holding force of the snap connection between the cap and guide ring.

The invention is therefore based on the object to provide a contrast improved strut bearing.

To solve this problem, it is provided according to the invention in a suspension strut bearing of the type mentioned that one or more separate stiffening elements radially stiffening the annular section are arranged on the annular section.

According to the invention, the annular soft component portion having one or more snap lugs is radially stiffened by separate stiffening members provided thereon. Thus, unlike in the prior art, no stiffening realized by one of the two components of the 2-part plastic part is used; rather, one or more separate stiffening elements are arranged as separate components. This makes it possible to manufacture the suspension strut bearing as a simple 2-K plastic part and to design the section comprising the snap lugs as a pure soft component section, which allows its forced removal in a simple manner, since he just is not stiffened over a hard component section. The attachment of the or the stiffening elements can be done later.

Different stiffening elements can be used. According to a first alternative of the invention, a plurality of pocket-like recesses which extend over at least part of the axial length of the section may be provided on the section, in each of which an elongate stiffening element is inserted. The soft component section is therefore produced from the start in the injection mold with a plurality of pocket-like recesses which are open on one side only. In this pocket-like recesses, the corresponding elongated stiffening elements are then used, which extend at least in sections along the section due to the position or the course of the recesses, the pockets preferably extending axially. The introduction of these stiffening elements can be automated in a subsequent assembly line by means of a corresponding filling. Only as many pocket-like recesses are formed as are actually required, so that each recess is provided with an elongate stiffening element.

Pins are preferably used as stiffening elements, preferably round cross-section, wherein the pins may be made of metal or plastic. In the case of a plastic version, the pins are of course made of a plastic that is harder than the plastic of the soft component.

Alternatively to the formation of the pocket-like recess and the introduction of the stiffening elements, it is conceivable to use an annular stiffening element which rests against the inner circumference of the section. According to this embodiment, only one stiffening element is used, which is arranged on the inner circumference of the section and this stiffened radially. Also, this stiffening element can be retrofitted, which can also be done automatically.

Such a stiffening element may be cylindrical or designed as a sleeve, which may also be slotted. The length of the sleeve may correspond to the length of the soft component portion to be stiffened, but may also be somewhat shorter, wherein the sleeve is preferably arranged naturally in the region in which the snap lugs are formed.

The sleeve itself can have an L-shaped cross-section and rest with the radial leg on an annular shoulder of the soft component and extend with the axial leg at least up to the plane of the snap-in nose. About this L-shape and resting on the annular shoulder radial leg assembly coding is automatically achieved because with resting the leg on the annular shoulder automatically the final assembly position is taken.

Alternatively to the use of a cylindrical sleeve, it is also conceivable to carry out the stiffening element as a spreading or clamping ring. This spreading or clamping ring is also set automatically and positioned in the snap lugs. Such a spreading or clamping ring is slotted and resilient, for example, so that it expands in the mounting position in the soft component section and spreads respectively jammed.

In principle, the fixing of the stiffening element can be effected by pressing or jamming or latching or gluing to the cap.

The fixing of the elongate stiffening elements in the pocket-shaped recesses takes place by means of a corresponding interference fit, that is to say that the stiffening elements are received in a correspondingly clamping manner in the pocket-like recesses.

The one annular reinforcing element is preferably made of metal, but may also be made of a plastic which is harder than the soft component.

Another considerable advantage of the stiffening of the soft component section according to the invention by means of one or more separately mounted stiffening elements can be seen in the fact that the disassembly force required for separating the cap snapped on the guide ring, ie therefore for releasing the snap connection, can be increased. Because by introducing the separate stiffening elements, the bending stiffness depends on the material used and is very high, especially when using metal stiffening compared to the flexural stiffness of the otherwise used for bracing hard component, the stiffness of this section can be set very high, so that he is only minimally yielding and therefore the snap lugs are very firmly pressed into their rear grip behind the locking collar respectively tense.

• 1 eine Prinzipdarstellung, geschnitten, eines Federbeinlagers einer ersten Ausführungsform,
• 2 eine Prinzipdarstellung, geschnitten, eines Federbeinlagers einer zweiten Ausführungsform, und
• 3 eine Prinzipdarstellung, geschnitten, eines Federbeinlagers einer dritten Ausführungsform.

The invention will be explained below with reference to embodiments with reference to the drawings. The drawings are schematic representations and show:

• 1 a schematic representation, cut, a suspension strut bearing of a first embodiment,
• 2 a schematic representation, cut, a suspension strut bearing of a second embodiment, and
• 3 a schematic representation, cut, a suspension strut bearing of a third embodiment.

1 shows a schematic diagram of a suspension strut bearing 1 a first embodiment comprising a guide ring 2 with a support area 3 for a coil spring. The guide ring 2 is for example a fiber-reinforced plastic component.

Also provided is a cap 4 , which is formed as a 2-component plastic component and a hard component 9 and a soft component 8th consists. Between the two is a camp 5 formed, which may be a rolling bearing or a plain bearing.

At the guide ring 2 is a Rastbund 6 trained, behind the snap-noses 7 attached to the cap 4 are trained, snorkel. These snap noses 7 are at a cap portion that over the soft component 8th is formed, trained. The hard component 9 overlaps the soft component 8th sections and forms, inter alia, a radially outer sealing geometry 10 , for example, as a grinding or labyrinth seal to the guide ring 2 seals off, leaving the area of the camp 5 is sealed from the outside.

As described are the snap noses 7 at the axially extending, annular portion 11 the soft component 8th formed, they point radially outwards and engage behind the locking collar 6 ,

Around this soft component section 11 radially stiffen, so that on the one hand, the mounting force required to release the snap connection is increased, on the other hand, but also the snap lugs 7 optionally in a sliding sealing system for the guide ring 2 are pressed around the perimeter of the section 11 distributes a plurality of pocket-like recesses 12 extending axially over the substantial length of the section 11 extend and at least to the area of the snap-lugs 7 run, trained. In each of these pocket-like recesses 12 is an elongated stiffening element 13 , here in the form of a pen 14 , used as a separate component. This insertion takes place after the manufacture of the cap 4 , which is manufactured as a 2-component plastic injection molded part. The recesses 12 can already be formed during manufacture. The diameter of the stiffening elements 13 So the pins 14 , is slightly larger than the pocket diameter, so that the stiffening elements stuck in the pocket-like recesses 12 are pressed.

Because of the stiffening elements 13 into the area of the snapping noses 7 Consequently, the entire portion is radially stiffened and in particular also the area of the snap-in lugs 7 , so that they are firmly fixed in their rest position and the force required for disassembly is significantly increased.

In addition, the subsequent introduction of the stiffening elements 13 the advantage of having the cap 4 can be easily made. Because the section 11 with the snap-noses 7 is formed as a pure soft component portion, so that the sprayed cap 4 can be readily forcibly molded, since the soft component portion can be easily pulled out of the mold, since it is still sufficiently flexible and can deform. Damage to the snap noses 7 is excluded.

2 shows a further embodiment of a strut bearing according to the invention 1 , wherein like reference numerals are used for the same components. Again, there is a guide ring 2 as well as a cap 4 provided between which a warehouse 5 For example, a rolling or sliding bearing is provided.

The cap 4 is formed differently in this embodiment than according to 1 , It again comprises a hard component 9 , which forms the overhead cap part, as well as a soft component 8th on the one hand, a radially outer section with the sealing geometry 10 forms, and a radially inner portion comprising the annular, axially extending portion 11 with the snap-noses 7 ,

To stiffen this section 11 besides the snap-noses 7 Here is just a stiffening element 13 in the form of an L-shaped cross-section, optionally longitudinally slotted sleeve 15 intended. This lies with its radially extending leg 16 on a support shoulder 17 the cap 4 on, the axially extending leg 18 extends along the inner circumference of the section 11 , It extends at least to the area of the snap-noses 7 so again the section 11 is sufficiently stiffened radially. At the same time, however, the snap lugs can easily move radially in operation due to manufacturing tolerances and spring forces, without having an influence on the Lagerreibmoment. Alternatively, the leg can 18 but also over the entire length of the section 11 extend.

The fixation of the stiffening element 13 So the sleeve 15 takes place via erected formations or pockets 19 , which act as an undercut against falling out and on the hard component 9 the cap 4 concerns respectively there are jammed. Alternatively or additionally, a bonding may also be provided.

3 Finally, shows a third embodiment of a shock absorber bearing according to the invention 1 comprising a guide ring 2 and a cap 4 with bearing in between 5 , The cap 4 also consists of a soft component here 8th and a hard component 9 , where here the hard component 9 only the inner part of the cap 2 forms while the soft component 8th the outer part forms and inter alia the external sealing geometry 10 having.

Again, the soft component forms 8th the radially inner, axially extending annular portion 11 with the snap-noses 7 out. For stiffening is here as a stiffening element 13 a spreader ring 19 provided in an annular groove 20 is snapped. The ring groove 20 and thus the spreader ring 19 are at the height of the snap noses 7 so that they are spread radially outward and in sliding contact with the guide ring 2 can be brought, so that from this side - as well as in the other embodiments - the area of the camp 5 is sealed.

Also in this invention embodiment, as well as in the embodiments according to the 1 and 2 , can the cap 4 as a pure plastic component consisting of the soft component 8th and the hard component 9 be readily injected and molded in a simple held tool. Which is also here, as well as in the embodiments according to the 1 and 2 , the stiffening element 13 only subsequently set automatically to the section 11 respectively the area of the snap-noses 7 radially stiffen and so the rear grip the snap noses 7 behind the Rastbund 6 stiffen and secure.

LIST OF REFERENCE NUMBERS

1

Strut mounts

2

guide ring

3

support areas

4

cap

5

camp

6

locking collar

7

snap lug

8th

soft component

9

hard component

10

sealing geometry

11

section

12

recess

13

stiffener

14

pen

15

shell

16

leg

17

annular shoulder

18

leg

19

expanding ring

20

ring groove

Claims (10)

Suspension strut bearing (1), comprising a guide ring (2) and a cap (4), wherein on the guide ring (2) a latching collar (6) and on the cap (4) one or more snap-action lugs (7) are provided under the latching collar (6), wherein the cap (4) is a 2-component plastic part having a hard component (9) and a soft component (8) forming an axially extending annular portion (11) with the snap lugs (7), characterized in that on the annular portion (11) one or more the annular portion (11) radially stiffening separate stiffening elements (13) are arranged. Suspension strut bearing (1) to Claim 1 , characterized in that on the portion (11) a plurality of pocket-like recesses (12) which extend at least over part of the axial length of the portion (11) are provided, in each of which an elongated stiffening element (13) is inserted. Suspension strut bearing (1) to Claim 2 , characterized in that the stiffening elements (13) are pins (14). Suspension strut bearing (1) to Claim 2 or 3 , characterized in that the pocket-like recesses (12) extend axially. Suspension strut bearing (1) to Claim 1 , characterized in that the stiffening element (13) is annular and rests against the inner circumference of the section. Suspension strut bearing (1) to Claim 5 , characterized in that the stiffening element (13) is cylindrical and designed as a sleeve (15). Suspension strut bearing (1) to Claim 6 , characterized in that the sleeve (15) has an L-shaped cross-section and with a radial leg (16) rests on an annular shoulder (17) and with an axial leg (18) at least up to the plane of the snap-in lugs (7) extends. Suspension strut bearing (1) to Claim 5 , characterized in that the stiffening element (13) is a spreading or clamping ring (19). Suspension strut bearing (1) according to one of Claims 5 to 8th , characterized in that the stiffening element (13) is pressed or clamped or locked or glued to the cap (4) is fixed. Suspension strut bearing (1) according to one of the preceding claims, characterized in that the one or more stiffening elements (13) is or are made of metal or a plastic that is harder than the soft component (8).

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