DE19516271A1 - Bearing with rubber support for coil spring - Google Patents

Abstract

In the direction of the spring turns the bearing has a spiral support incline with a groove for the end section of the coil spring (3) which has, at its end to be supported, the same lead as the adjacent spring section. The support incline has a smaller lead w.r.t. the outlet turn of the spring to attain a rolling bearing of the coil spring end section. With the tensioned spring the support material (1) is almost entirely surrounded by rigid bearing material and that of the spring. Pref. the support material surrounded region is bounded by the abutting, rigid bearing material.

Description

The invention relates to a bearing with a pad made of elasti cal material, in particular rubber, for receiving a Coil spring of vehicle axle suspension according to the Oberbe handle of claim 1.

In known bearings of this type, they have to be accommodated Coil springs at the relevant end, including one created, flat-ground end turn. As a created Endwin such a final turn is to be understood in which the final turn practically on the previous screw application. Such a form of a final turn is so far necessary if the coil spring is on a rubber pad should lie to a sufficient fatigue strength of the gum to ensure milagers. Rubber pads are for good Isolation of the vehicle body against rolling noise is necessary dig. By grinding the final turn, we go The coil spring lost about 3/4 turns. Terms This version of Vor is a small space part. However, it is expensive to manufacture.

Another known bearing design is used instead of the end face turn, which is expensive to manufacture largely final turn applied to the previous turn placed on a spirally adapted rubber pad. Also  here about 3/4 turns are ineffective. This version is inexpensive, but unfavorable in terms of weight and installation space. In addition presses the end of the turn strongly on the turn above the coil spring, which creates a voltage spike. Together with the effects of corrosion, this leads to increased Risk of breakage.

From DE 29 38 101 C2, on the other hand, there is a so-called rolling the execution known. This is characterized in that the coil spring here with a continuous down to the win end of the same slope. Here is no grinding or application of the final turn required Lich. The coil spring end, however, needs a rigid one metallic support because of the high strength requirements conditions that this version places on the support. The concrete one Training of that known storage is that about the first third of the final turn for guidance in a spi ral-shaped groove with a V-shaped cross section. The one bordering part of the final turn rolls up when it bounces a spiral ramp, one with the v-shaped Groove has the same slope. The slope of the ramp is there at just a little larger than the wire gauge of the spring. The great The advantage of this type of bearing is that it has one Conceivably inexpensive spring end shape only about 20% of an un to have an effective final turn. Also regarding Ge this bearing design is extremely important in terms of installation space and price advantageous. In particular, there is no excessive voltage between between the coil end of the coil spring and the above present turn.

A bearing with a rubber pad could not be used Strength of the rubber pad not for a "rolling spring Storage "can be used.  

Proceeding from this, the invention deals with the pro blem to find a way to use a bearing with a rubber pad to be able to implement a gear spring bearing. In doing so in particular the problems that arise from it are overcome show that in the case of rolling springs, the spring forces predominantly above two relatively small areas opposite each other at the spring end che are transferred to the spring support and usually specific loads not controllable with rubber pads effect. In addition, the fact that Gum bearing on the high loads caused by the rolling end ner coil spring react too elastic to to obtain the favorable rolling effect desired in itself.

A solution to mastering the aforementioned problems shows a generic bearing design with the characteristic Features of claim 1.

This solution is based on the idea of designing the warehouse in this way ten that on the one hand the high specific load of an Ab Rolling spring can be transferred to a rubber bearing and that on the other hand, the beneficial effect of a gear spring a rigid base is preserved as completely as possible. The solution found, in particular, does not require any vulcanizing te rubber-metal or rubber-plastic connection, because a sol che solution would not be ideal in terms of cost. Nevertheless is suitable the solution according to the invention in principle also for a for example vulcanized rubber compound. However stands the fundamental improvement of resilience and stiffness the disadvantage of a disproportionately large majority expenses compared.

The essence of the inventive solution according to the characteristic Features of claim 1 is by a as complete as possible inclusion of the elastic Auflagerma  terials its effective elasticity as far as possible to discontinue. This is achieved in that in the absence of Ver formation space the elastic support material, which in itself is compressible, its elasticity in a chambering ver on the spring roller end like a rigid mate rial acts and is also resilient in the same form. Yet the noise insulation remains intact.

Which go from the coil spring into the end area the same slope on a bearing is largest at the end of the spring and decreases with increasing Ent distance from the end of the spring. The most complete possible note of the elastic support material in the end area, that is, in particular at the end of the coil spring, is there especially important. This is achieved after the Unteran saying 1 by a depth increasing towards the end of the spring Spring receiving groove in the contact surface.

Around the support at the spring end when assembling the screw benfeder into a stationary La receiving the coil spring to be able to hold the coil spring in position, is the groove in the support material at the spring end deep and broadly designed so that the elastic pad can be snapped onto the spring end in this area.

The chambering of the elastic material can be achieved be that this in the form of a support ring in a receptacle melager is clamped with a U-shaped ring cross-section. Is such a one-piece for manufacturing reasons a storage facility is not possible or desired Storage camp can be selected and the inner chamber of the Support material by a in the ring-shaped support ma insertable rigid ring are formed. In this The case material is brought in together with the case  rigid ring snapped onto the spring end and in this closed stood in the bowl-shaped, fixed reception center leads.

Measure through one outside of about 1/3 of the end turn length ver the end of the spring relatively flat in the support material Running support groove for the spring wire forms the support material together with the spring not a compact rigid unit, the Schwie assembly-wise when inserted into the reception camp prepares problems. Therefore, the bearing according to the invention is in usually mountable without lubricant.

In order to damage the elastic support on the direct End of the coil spring by z. B. one located there To avoid burrs, it is advisable to use the appropriate stel le the edition has an undercut, that is an additional recess to be provided in the receiving groove.

Embodiments of the invention are shown in the drawing posed.

Show it

Fig. 1 shows a section through a bearing having a cross-sectional U-shaped bearing shell,

Fig. 2 is a view of the bearing of FIG. 1 from below, without the coil spring,

Fig. 3 shows a section through a bearing having a Lagerschüs sel and a separate inner stiffening ring for the annular Auflagermaterial,

Fig. 4 is a section through the bearing according to line IV-IV in Fig. 2 for illustration, only the elasti rule receiving material,

Fig. 5 is a section through the bearing according to line VV in the representation according to Fig. 4,

Fig. 6 shows an alternative embodiment of the groove of the receiving material in a section as in the illustration in Fig. 5.

In Fig. 1, for example, rubber is used as elastic material 1 in a bearing seat 2 with a U-shaped circular ring cross section.

The receiving surface of the elastic material 1 extends spirally obliquely with an incline that is overall less than that of the helical spring 3 lying on the elastic material 1 .

The groove 4 in the elastic material 1 for receiving the coil spring 3 is of different depths and widths over its length. The deepest point lies at point a, the area between a and b being designed as an undercut particularly deep. A large depth of the groove 4 means a very small opening angle α, which can be approximately 20 degrees in the region bc.

In the area cd, the opening angle of the groove 4 changes to larger values. In the area between d and e, the opening angle at the section line VV in FIG. 2 according to FIG. 4 is approximately 90 degrees. At point e, the groove 4 overflows into a flat, sloping surface.

The area between b and c measures about a third of the end turn of the coil spring 3 to be stored. Due to the formation of the groove 4 in the area between d and e, there is a certain radial play of the helical spring in the spring area which is not directly adjacent in the untensioned state.

When installing the coil spring 3 in the receptacle 2 of the bearing, the elastic material 1 must be fixed to the end region of the coil spring 3 . For this purpose, the Ril le 4 receives in the area between b and c a cross-sectional shape enclosing the spring wire of the coil spring 3 , whereby the spring wire can be fixed in this area by snapping. For such a fixation, an area is sufficient, which extends in turn over about a third of the length of the last spring turn.

In cases in which a bearing receptacle 2 with a U-ring cross section cannot be realized, an embodiment according to FIG. 3 is extremely useful. Here the elastic material 1 is chambered radially on the inside via a rigid, loose ring 5 . This ring 5 is only subjected to pressure and can therefore be made of plastic in a very economical manner. In this embodiment, the bearing is accommodated in a bowl 6 . When the helical spring 3 is assembled, the elastic material 1 and the ring 5 in this embodiment are in the state snapped onto the spring end. The ring 5 can also consist of plastic or steel or aluminum, for example.

Claims (6)

1. Bearing with a support made of elastic material, in particular rubber, for receiving a coil spring of vehicle axle suspensions with a slope inclined in the direction of the winding of the increasing coil spring and inclined groove in this receiving incline for receiving the end region of the coil spring , characterized in that the helical spring ( 3 ) has at its end to be supported a ge compared to its adjacent area at least substantially the same slope, that the slope of the support has a smaller slope than the slope of the outgoing winding of the helical spring ( 3 ), to thereby achieve a rolling storage of the coil spring end area and that the support material ( 1 ) is almost completely enclosed by rigid bearing material on the one hand and the material of the coil spring ( 3 ) when the coil spring ( 3 ) is tensioned. 2. Bearing according to claim 1, characterized in that the almost completely enclosed area of the elastic material's ( 1 ) is limited by loosely fitting rigid bearing material. 3. Bearing according to claim 1 or 2, characterized in that the depth of the groove ( 4 ) in the support of the elastic Ma terials ( 1 ) decreases with increasing distance from the end of the coil spring ( 3 ) associated end of this groove ( 4 ) . 4. Bearing according to one of the preceding claims, characterized in that the depth and shape of the groove ( 4 ) in a to accommodate the free end of the coil spring ( 3 ) associated limited length range allows the end of the coil spring ( 3 ) to snap. 5. Bearing according to one of the preceding claims, characterized in that the support of the elastic material ( 1 ) is releasably mounted on an inner ring ( 5 ) and can be used in this form in a stationary outer shell ( 6 ) of the bearing. 6. Bearing according to one of the preceding claims, characterized in that at the free end of the coil spring ( 3 ) facing the end of the groove ( 4 ) a local additional recess (undercut, in the area a to b) is provided.