DE2346837A1 - SEALING TULIP MADE OF ELASTIC MATERIAL - Google Patents

Description

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Sealing sleeve made of elastic material

The invention relates to a Dicht.ungsstülpe from elastic material for rotating joint parts provided with lubricant, in particular for drive joints of motor vehicles that have a first collar for attachment to the outer part of the drive joint and a second Has collar for attachment to the cardan shaft and also several interconnected annular cuff parts consists.

Such sighting cuffs known for example from the German utility model 6 609 559 have the The task of protecting the drive joints from contamination, damage and also from loss of lubricant.

It has been found that the lubricants present in the drive joint are released from the drive joint during the ferry operation after a relatively short operating time

ORiGfNAL INSPECTED

509617/0383

are thrown out and are in the sealing cuff, especially in their. Collect creases or folds. A satisfactory one Lubrication of the drive joint is no longer guaranteed after such a loss of lubricant. so that the service life of the drive joint is reduced.

The object of the invention is to design a sealing cuff of the type mentioned in such a way that a satisfactory Lubrication of the drive joint is guaranteed.

This object is achieved according to the invention in that the inner diameter of the 'sfulp parts from the shaft side Enlarge the collar towards the collar on the joint side, whereby the largest diameter of the one cuff part is smaller or smaller is equal to the smallest durometer of the cuff part adjacent to it.

Bti a gate part-like embodiment of the invention Sealing cuff, the diameter of the individual cuff parts is increased linearly. In another advantageous In contrast, the enlargement of the diameter of the individual cuff parts takes place progressively. Preferably Bind the sealing sleeves according to the invention in addition designed to be the largest diameter of the most articulated The collar of the cuff part is dimensioned so that - See the inner circumference of the cuff part and the cuff-side The end face of the outer part of the joint can at most form small undesirable lubricant reservoirs.

On the basis of the exemplary embodiments shown in the drawing the invention and advantageous embodiments of the invention are explained.

509617/0303

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Show it

Fig-ux 1 a sealing cuff made of elastic rubber, in which the enlargement of the diameter of the individual cuff parts is linear takes place and

Figure 2 a sealing cuff made of elastic material " in which the enlargement of the diameter of the individual cuff parts takes place progressively.

A known drive joint for motor vehicles is shown. This consists of the cardan shaft 6 and the actual joint 7 with the outer part 8, the inner part 9, the Ball cage 10 and the balls 11. Ib outer part 8 are outer: Ball contact tracks and formed in the inner part 9 inner ball contact tracks. The cardan shaft 6 is known Connected to the inner part 9 of the joint 7. The inner of the joint is filled with lubricant so that the outer raceways and the inner raceways of the balls 11 are well lubricated. To protect the joint from dirt and damage, the open side of the joint is protected by a Sealing sleeve made of elastic material closed. This sealing cuff has a first collar 1 for attachment on outer part 8 of the joint 7 and a second collar 2 to Fastening to the cardan shaft 6. The sealing faceplate consists of several interconnected ring-shaped faceplate parts 3 a, J b and 3 c. The individual cuff parts are each like this designed that their inner diameter increase from the shaft-side collar 2 to the joint-side collar 1 * The Lined up cuff parts have different diameters. They are so coordinated that each the largest Durohmesser 5 a., 5 b »5 c of one cuff part is smaller than the smallest Durchcescer of the neighboring one

509817/0383

ORiSINAL INSPECTED

Cuff part. The individual cuff parts 5a »3b> 3 ° are conical, that is, their diameter is increased linearly. It can be seen that with such a design of the sealing sleeve, the lubricant that has entered the sealing sleeve is thrown or pressed against the inner wall of the sealing sleeve by the effect of centrifugal force and there from the smaller to the larger sleeve diameter and ultimately onto the outer raceway of the joint 7 is transported. Because of the design of the sealing cuff according to the invention, the lubricant that has entered the sealing cuff can no longer settle in grooves or gaps in the sealing cuff. It is particularly advantageous, as shown in Figure 1, if the largest diameter 5 c of the cuff part 3 c adjoining the joint-side collar 1 is dimensioned so that at most small undesirable ones are between the inner circumference of the cuff part and the cuff-side end face of the outer part 8 of the joint 7 Can form lubricant reservoir. For this it is necessary to measure the largest diameter 5 ο this cuff part J c as small as the joint function allows. In Figure 1, the diameter 5 o is just chosen so that there is a smooth transition to the outer ball track. Under certain circumstances it can be beneficial to make this diameter even smaller. In this case, the sealing cuff would protrude somewhat into the outer ball raceway. This would have the additional advantageous effect that the lubricant contained in the joint 7 is at least partially prevented from leaving the joint ¹ J at all. The step-shaped conical design of the sealing sleeve ensures that the lubricant migrates back into the track of the joint 1 even if the sealing sleeve bulges as a result of the influence of centrifugal force.

509817/0383

3e ± dea in Figure 2 dargsstellten drive joint of a motor vehicle, a sealing ostülpe is used that something is designed differently than that according to FIG. 1. This sealing cuff also has a first collar, which is on the outer part 8 of the joint 7 is attached, and a second sound 2, the is attached to the actual propeller shaft 6. In contrast for the arrangement according to Figure 1, the enlargement of the Durohmeeaers of the individual cuff parts does not take place in this arrangement linear but progressive. Even with such a training it is ensured that the entered the sealing cuff Lubricant is conveyed back into the raceway of the joint 7 with the aid of centrifugal force. In the example according to Figure 2 is the largest diameter of a Stulpenteila, z. B. that of the cuff part 3 b, equal to the smallest Diameter of the cuff part adjacent to it, e.g. 5. 3 o * Similar to the arrangement according to FIG. 1, however, it is also possible in principle with this arrangement to switch between the to see individual cuff parts, paragraphs, d. H. the biggest To make the diameter of one cuff part slightly smaller than the smallest diameter of the cuff part adjacent to it · It would, however, also be possible between the individual cuff parts To arrange cuff parts in each case a narrow Hing of constant diameter. The only thing that matters is that the The inner diameter of the sealing sleeve is not reduced once in a while, which creates a trap for the lubricant would be formed. In the exemplary embodiment according to FIG. 2 it is shown that it is basically also possible to stiffen the individual cuff parts on the outside by means of annular beads 1J with any cross-section eu. Such a stiffening can be useful to prevent the sealing cuff from buckling as a result of centrifugal forces. In a sealing cuff according to Figure 1, such additional stiffening is in usually not be necessary because already the between the adjacent cuff parts 3 β, / 3 b or 3 b / 3 c

509817/0383

The cuff bar has a stabilizing effect.

It should also be pointed out that the inventive effected transport of the lubricant to the joint through the due to the design-related flexion occurring value movements is additionally supported.

The inventive design of the sealing sleeve has the consequence that the lubricant used is better utilized and that it is also ensured that the drive joint is always adequately lubricated. The lifespan the drive joint is increased accordingly.

The invention has been explained on the basis of two exemplary embodiments. It goes without saying that the invention does not only do this two embodiments, but includes all the training in which the inner diameter of the sealing cuff continuously from the shaft-side collar to the joint-side Waistband enlarged.

509817/0383

Claims (2)

CLAIM Sealing sleeve made of elastic material for circumferential, joint parts with old lubricants, especially for ' Drive joints of motor vehicles, which have a first collar for attachment to the outer part of the drive joint and a second collar for attachment to the propeller shaft and aua several interconnected annular Faceplate parts, characterized in that calibrated the inner diameter of the cuff parts (3 a, 3 b, 3 c) from the shaft-side collar (2) to the joint-side collar (1) enlarge towards, the largest diameter of each cuff part being smaller than or equal to the smallest Diameter of the part of the faceplate adjacent to it. 2. Sealing sleeve according to claim 1, characterized in that that the enlargement of the diameter of a cuff part (5 a, 3 fc »3 c) takes place linearly. 3 * sealing sleeve according to claim 1, characterized in that da3 the enlargement of the diameter of a cuff part (3> ε. »3 k» 3 o) takes place progressively. 4 · Seal Bctulpe according to one of claims 1 to 3t thereby characterized in that the individual cuff parts are stiffened on the outside by annular beads of any cross-section. 509817/0383 Dichttaigsstülpe according to one of claims 1 to 4 »thereby characterized in that the largest diameter (5 c) of the cuff part adjoining the joint-side collar (1) (3 c) is dimensioned so that between the inner circumference of the cuff part and the cuff-side The end face of the outer part of the joint can at most form small undesirable lubricant reservoirs. 509817/0383