DE19500975B4 - Damping bearing, in particular for the installation of a shaft belonging to a wiper mechanism - Google Patents

Abstract

Damping bearing (14) for a shaft belonging to a drive mechanism of a windshield wiper for mounting in the opening in a body panel, in the version with a damping block (20) made of an elastically deformable material, through which a hole (22) passes through in the middle two parallel end faces (24, 26) of the block (20) running perpendicular to the axis (XX) of the hole (22), and in the embodiment with a bearing web which comprises a first sleeve (32) which is located in the interior of the hole ( 22) of the damping block (20) is inserted and at one axial end merges into a first radial outer collar (34) which comes to rest on a first (24) of the two end faces of the damping block (20), and a second sleeve (36) , which is fitted inside the first sleeve (32) and merges at one axial end into a second radial outer collar (38) which comes to rest on the second (26) of the two end faces of the damping block (20), w o it comprises means for the relative axial securing of the two sleeves (32, 36) in the fitted position, the securing means are securing means due to the interaction of form-fitting elements (50, 52, 58, 64) and the inner surface (48) of the first Sleeve (32) comprises a first radial inner shoulder (52) which is directed towards the first collar (34) and cooperates with a second radial shoulder (58, 64) which is formed opposite and in the outer surface of the second sleeve (36) is directed towards the second radial collar (38).

Description

The present invention relates to a damping bearing, that for installing a shaft that is used to drive a mechanism a wiper.

From the DE 42 15 627 a damping bearing for wheel control handlebars with a damping block made of elastically deformable material is known.

The invention relates in detail to a bearing in execution with a damping block made of an elastically deformable material, which in the middle of a hole is pulled through that on two perpendicular to the hole axis running parallel end faces of the block leads and in execution with a bearing web, which comprises a first sleeve, which inside the hole of the damping block is used and at one axial end in a first radial Outer League passes over which comes to rest on a first of the two end faces of the damping block, as well as a second sleeve, the inside the first sleeve is fitted and at one axial end in a second radial Outer League passes over which comes to rest on the second of the two end faces of the damping block.

According to such a bearing design becomes the damping block in the form of a solid block with a generally cylindrical shape Made of elastomer material, while the two sleeves are two similar parts made of metal, each by axial insertion of the opposite end faces of the Blocks are used to form a storage unit.

To do this, the second sleeve becomes sliding inside the first sleeve used, whereby it is necessary the three components of the camp in this pre-assembly position until the bearing is installed in the drive mechanism to hold, whereupon then means for axial clamping and securing any later detachment of the pods prevent the bearing. This design is therefore complex and little suitable for automation of the assembly processes for such a warehouse.

To overcome this disadvantage, the invention proposes a damping bearing of the type mentioned above, by the features of claim 1.

According to further features of the invention the following is provided:

• - At The means of protection are means of protection by the interaction more form-fitting Elements.
• - The Inner surface the first sleeve includes a first radial inner shoulder leading to the first collar is directed towards and cooperates with a second radial shoulder, the opposite in the outer surface of the second sleeve is formed and directed towards the second radial collar.
• - The damping block is squeezed between the two radial frets of the pods built in so that he can rest the two radial shoulders together elastically stressed.
• - The first shoulder consists of a radial surface of an annular rib, the protruding on the inner surface the first sleeve is provided.
• - The free end section of the first sleeve includes one Row of axial slots that make it elastic in a row deformable approaches divide on the inside surface the first shoulder is formed.
• - The second radial shoulder consists of a radial surface of one Grooving in the outer surface of the second sleeve is trained.
• - The second radial shoulder consists of an edge of an expanded one Head, which is provided at the free end of the second sleeve.
• - The first sleeve is made of plastic.
• - The second sleeve is made of metal.

The first mentioned above A number of features of the invention thus enable the implementation of a Dämfungslagers in the form of an overall unit, which is then built into a mechanism can be without the Risk of detachment of its components.

The bearing elastomeric block generally comprises a radial circumferential groove that fits into one appropriate hole made in a sheet metal, that belongs to a fixed bracket.

This installation is sometimes by the presence of the inner sleeves which complicates the possibilities a radial internal compression of the damping block for his Limit fit in the hole of the fixed bracket. The Invention aims to provide a solution to this problem as well.

For this purpose, the damping block leading to the damping bearing according to the invention heard, divided into two identical parts by a diametrical plane be the one with two contact surfaces abut each other, each comprising a series of webs, which a circumferential groove of the damping block limit.

The webs are evenly angled distributed and interlocked.

Other features and advantages of Invention emerge from the detailed description below, for their understanding on the attached Reference is made to drawings showing the following is:

1 shows a longitudinal sectional view of a first embodiment of a damping bearing according to the invention, which is shown in the assembled and installed position.

2 shows a view similar to 1 to illustrate a second embodiment of a damping bearing according to the invention.

3 shows a bottom view of the first sleeve leading to the damping bearing of 2 heard.

4 shows a partial perspective view of the first sleeve of the in 2 shown damping bearing.

5 shows a perspective view of the second sleeve that to the in 2 depicted warehouse belongs.

6 to 8th show views similar to that 2 . 4 and 5 to illustrate a third embodiment of a damping bearing according to the invention.

9 shows - in the assembled position - a longitudinal sectional view of the damping block in a partially inventive embodiment.

10 shows a longitudinal sectional view of one of the two components of the in 9 illustrated two-part damping bearing.

11 shows a top view of the in 10 illustrated part.

And 12 shows a perspective view of the in the 10 and 11 illustrated part.

In 1 you can see a damping bearing 14 for the rotating mounting of a shaft (not shown), which belongs, for example, to a drive mechanism of a motor vehicle windshield wiper, in a fixed holder, which here consists of a sheet metal 16 consists of a circular hole 18 is provided.

The warehouse 14 comprises an elastomer block according to a known design 20 with a generally cylindrical shape, with a hole in the middle 22 has that axially on the two axial end faces 24 and 26 of the block 20 leads perpendicular to the axis XX of the hole 22 run.

The cylindrical peripheral surface 28 of the block 20 contains a radial internal groove 30 for receiving the circular edge of the hole 18 in the sheet 16 ,

The warehouse 14 also includes a first cylindrical sleeve made of sheet metal 32 that axially into the hole 22 is used and in the vicinity of its upper end in a first radial outer collar 34 passes over to the axial end face 24 of the block 20 comes to the plant.

The warehouse 14 further comprises a second sleeve 36 that axially into the interior of the first sleeve 32 is fitted and the near its lower end in a second radial collar 38 passes axially at the radial end face 26 of the block 20 comes to the plant.

The axial end edge 40 the first sleeve 32 comes here on the inside surface 42 of the second radial collar 38 to the facility.

To a damping bearing according to the invention 14 To create in the form of an overall unit, the two sleeves 32 and 36 axially secured in relation to one another, for which purpose they are fitted into one another.

For assembling the bearing 14 before mounting it in the sheet 16 first becomes the first sleeve 32 used, whereupon the second sleeve 36 inside the first sleeve 32 is fitted until the axial end edge 40 on the inner surface 42 comes to the plant. After completing this assembly process, the elastomer block is in place 20 axially slightly compressed, and the bearing 14 forms a unit by a single simple process in the hole 18 of the sheet 16 can be used, which can be done especially with the help of an automatic assembly machine. The bearing assembled and assembled in this way is ready to accommodate the other components of the drive mechanism of a wiper.

There now follows the description of the second embodiment, which is shown in FIGS 2 to 5 is illustrated, in which identical or similar components as in the first embodiment are each designated by the same reference numerals.

In this embodiment, the first sleeve 32 a plastic part, the lower end portion through three axial slots 46 in three axial approaches 44 is divided.

The cylindrical inner surface 48 the first sleeve 32 includes in the area of approaches 44 an annular rib 50 that projects radially inwards.

The radial top 52 the rib 50 forms a radial shoulder leading to the first fret 34 is directed while the opposite side 54 of the rib 50 runs obliquely to form an insertion slope.

The rib 50 is in the assembled position of the bearing 14 into a radial groove 56 used in the outer surface of the second sleeve 36 is provided, which is a machined metal part.

The axial height of the groove 56 is greater than the height of the rib 50 , and its radial top 58 forms a radial shoulder leading to the second radial collar 38 is directed and with the first radial shoulder 52 the first sleeve 32 cooperates to axially secure these two sleeves in relation to each other when in the assembled position.

The free end edge 60 the second sleeve 36 is beveled.

The assembly of the in the 2 to 5 Damping bearing shown according to the second embodiment is made as follows.

After inserting the first sleeve 32 in the hole 22 of the damping block 20 becomes the second sleeve 36 inside the sleeve 32 fitted.

The acts in the course of the axial fitting path slope 60 with the slant 54 together to the radial spread of the approaches 44 to cause the elastomer of the block 20 slightly deform until the two sleeves assume their respective axial position, which in 2 is illustrated with the rib 50 in the groove 56 has penetrated.

This position also corresponds to a slight axial compression of the block 20 between the frets 34 and 38 so that the block takes on an elastic retraction function around the shoulders 52 and 58 to hold together.

The camp so assembled 14 forms an overall unit that easily fits into the hole 18 of the sheet 16 can be installed.

There now follows the description of the third embodiment, which is shown in FIGS 6 to 8th is illustrated, in which identical or similar elements as in the in the 2 to 5 shown second embodiment are each designated by the same reference numerals.

This third embodiment differs from the previous embodiment essentially in the design of the second sleeve 36 , which is executed here in the form of a metal part made of deep-drawn sheet steel.

The cylindrical main body of the second sleeve 36 has a diameter that is slightly smaller than the diameter of the inner surface 48 the first sleeve 36 and ends near its upper axial end in an expanded head 62 ,

The bottom edge 64 of the dilated head 62 forms the radial stop shoulder with which the radial inner shoulder 52 the rib 50 interacts.

The assembly of the damping bearing 14 who in the 7 to 8th is done in the same manner as that with reference to FIG 2 to 5 has been described.

The embodiment variant of the elastomer block now follows 20 that in the 9 to 12 is pictured.

The elastomer block 20 here consists of two identical parts 70 which axially abut one another with two end faces which correspond approximately to a diametrical division of the block into two equal halves.

Each of the parts 70 contains a section of the hole 22 as well as an axial end face 24 and 26 of the block 20 ,

The radial contact surface 72 every part 70 , which is arranged parallel and opposite to the corresponding radial end face, comprises three projecting webs 74 ,

Each web is designed here in the form of an angled cylinder section, which extends at an angle of approximately 60 ° and the cylindrical peripheral surface 76 has a diameter that is slightly smaller than the diameter of the peripheral wall 28 of the part 70 is.

Every space 78 , which is between two successive bridge blocks 74 extends for the inclusion of a corresponding web 74 the other of the two parts 70 certainly.

The axial height of each bar 74 , which is the distance between the bearing surface 72 and the radial end surface 80 of the jetty 74 corresponds with the height of the radial circumferential groove 30 of the block 20 in the assembled position of the two parts 70 match.

The use of one of two parts 70 existing blocks 20 allows it to be first installed in the hole 18 of the sheet 16 by placing each of the two parts from one of the sides of the sheet 16 is used, then the two sleeves then to complete the assembly of the bearing 32 and 36 be fitted due to the presence of means for the relative axial securing of the two sleeves also the final assembly of the two parts 70 of the damping block 20 to finally assemble and insert a unit damping bearing into the hole 18 make.

Claims (10)

Damping bearing ( 14 ) for a shaft belonging to a drive mechanism of a windscreen wiper for mounting in the opening in a body panel, in the version with a damping block ( 20 ) made of an elastically deformable material that is centered by a hole ( 22 ) is traversed on two perpendicular to the axis (XX) of the hole ( 22 ) running parallel end faces ( 24 . 26 ) of the block ( 20 ) leads, and in the version with a bearing web that has a first sleeve ( 32 ) which is inside the hole ( 22 ) of the damping block ( 20 ) is inserted and at one axial end into a first radial outer collar ( 34 ) passes over on a first ( 24 ) of the two end faces of the damping block ( 20 ) comes into contact, as well as a second sleeve ( 36 ) inside the first sleeve ( 32 ) is fitted and at one axial end in a second radial outer collar ( 38 ) passes over to the second ( 26 ) of the two end faces of the damping block ( 20 ) comes into contact, whereby means for the relative axial securing of the two sleeves ( 32 . 36 ) in the fitted position, the means of securing are means of securing through the interaction of form-fitting elements ( 50 . 52 . 58 . 64 ) and the inner surface ( 48 ) the first sleeve ( 32 ) a first radial inner shoulder ( 52 ) includes the first fret ( 34 ) is directed towards and with a second radial shoulder ( 58 . 64 ) cooperating, which is opposite in the outer surface of the second sleeve ( 36 ) and to the second radial collar ( 38 ) is directed. Damping bearing according to claim 1, characterized in that the damping block ( 20 ) compressed between the two radial frets ( 34 . 36 ) the sleeves ( 32 . 36 ) is installed so that it supports the two radial shoulders ( 52 . 58 . 64 ) elastically stressed against each other. Damping bearing according to one of claims 1 or 2, characterized in that the first shoulder from a radial surface ( 52 ) an annular rib ( 50 ) that protrudes on the inner surface ( 48 ) the first sleeve is provided. Damping bearing according to one of claims 1 to 3, characterized in that the free end portion of the first sleeve ( 32 ) a series of axial slots ( 46 ) which includes him in a series of elastically deformable approaches ( 44 ) on the inside surface of which the first shoulder ( 52 ) is trained. Damping bearing according to one of claims 1 to 4, characterized in that the second radial shoulder ( 58 ) from a radial surface of a groove ( 56 ), which is in the outer surface of the second sleeve ( 36 ) is trained. Damping bearing according to one of claims 1 to 4, characterized in that the second radial shoulder ( 64 ) from an edge of an expanded head ( 63 ) exists at the free end of the second sleeve ( 36 ) is provided. Damping bearing according to one of the preceding claims, characterized in that the first sleeve ( 32 ) is made of plastic. Damping bearing according to one of the preceding claims, characterized in that the second sleeve ( 36 ) is made of metal. Damping bearing according to one of the preceding claims, characterized in that the damping block ( 20 ) through a diametrical plane into two identical parts ( 70 ) which is divided with contact surfaces ( 72 ), which each have a row of webs ( 74 ) which comprise a radial circumferential groove ( 30 ) of the damping block ( 20 ) limit. Damping bearing according to claim 9, characterized in that the webs ( 74 ) are evenly distributed and interlocked.