DE4426392A1 - Bellows seal - Google Patents

Abstract

The object on which the invention is based is to provide a bellows seal (boot) for constant-velocity joints which, while having a short overall length, permits large bending angles of the joints and has a relatively small enclosed internal volume. The object is achieved by virtue of the fact that the bending region of the bellows seal (1) is provided at least with one part designed as a diaphragm (4) and that, in cross-section, the diaphragm (4) is in each case formed by a radially outer curvature (7) and a radially inner curvature (8), the latter having a larger radius of curvature than the radially outer curvature (7), the two curvatures (7, 8) being opposite in direction. <IMAGE>

Description

The invention relates to a bellows for sealing a an outer joint part and one connected to a shaft Inner joint part of existing constant velocity joint, with two Collar areas of different diameters and one, between the flexible flexion area arranged in the two waistband areas.

A bellows with one radially outer and one radially inner curvature against both curvatures are commonly known (U.S. Patent 5,027,665). In which Bellows described are the be the bend part neighboring areas are very rigid. Beyond that the opposing curved parts already in the stretched protrusion of the joint such a small radial Ab stood apart from each other that often a touch occurs here can, causing the bellows to rub due to the constant Movement is destroyed in a short time.

DE-AS 16 00 429 shows a bellows, which in FIG. 2 is composed of a spacer 21 and so-called membrane parts 17 and 20 . In this embodiment, it is disadvantageous that the membrane parts have a relatively stiff behavior when the joint is bent. As a result, the spacers are subject to extensive deformations.

The invention has for its object a bellows for Sealing a constant velocity universal joint to create the short clamping length allows large articulation angles of the joint and which maintains its shape stability in the deformed state.

According to the invention, this object is achieved by bending range of the bellows ver with at least one membrane area can be seen, and that the membrane area in cross section through each a radially outer curvature and a radially inner one Curvature a larger radius of curvature than the radially outer lying curvature is formed, and that the membrane area is convex when viewed from the outside, and over one marked by a small radius of curvature Hinge area with a smaller diameter of the case tenbalges directed concave folding area connected is, and that with axially compressed bellows the mem branch area from its production in the direction of the federal area is deformable with the large diameter of the bellows, the shape of the folding area is approximately unaffected, and that when the bellows is bent, the one deformed Folding area on the membrane area curved approximately uniformly is created.

In the bellows according to the invention, it is advantageous that the Membrane area absorbs the axial changes in length and the Folding area comes into play at the bends.

Because the radially inner curvature is larger Has a radius of curvature than the radially outer curvature,  there is a favorable stress distribution. Around internal curvature causes tensile stress in axia displacement towards the joint and in the radial area external, with a smaller radius of curvature Accordingly, curvature stresses.

This ensures that the shape remains stable.

Another advantage of the folds on which the invention is based balges is its ability especially with sliding joints, the enclosed volume constantly increases within certain limits hold.

In addition, the stressed bellows is characterized light weight and is both by blow molding can also be produced by injection molding.

Another advantage is that a large area when bent system of the diaphragm facing the bend direction and fold areas, resulting in low surface pressures surrender.

In an advantageous embodiment of the invention, it is provided hen that a change in the axial length of the bellows by changing the radii of curvature of the outside and the inner curvatures of the membrane area men is.

As a result, the bellows in the area of the membrane becomes a so-called named memory effect conferred by being pulled out axially transferred into its tension-free starting form becomes.  

According to a further advantageous feature of the invention provided that a manufacturing-related first starting form Tangent to the transition area of the two curvatures Forms an angle of 90 ° with the joint axis.

This design requires a relatively large inward facing axial displacement a when transferring the membrane from the initial shape in the second characterized by the installation position nete shape.

The memory effects are corresponding with this version extraordinary big.

In a further embodiment of the invention, that the tangent in the first initial shape caused by the manufacture an angle at the transition area of the two radii of curvature forms less than 90 ° with the joint axis.

This version has the advantage that no or only a relative small displacement when transferring the membrane area of the bellows from the original shape to the installation-related wide form is necessary.

According to a further feature of the invention it is provided that the membrane is at least one fold axially upstream.

The fold can be both the larger diameter of the collar as well as facing the collar of smaller diameter.

With this solution, the tasks of the bellows are eliminated divides as the bend through the membrane in the fold area is taken and the axial change in length by one or multiple folds.  

In an advantageous embodiment of the invention is based at least one of the larger diameter collar Part of the adjoining membrane through a tissue location reinforced.

This version is particularly suitable for quick-turning bellows the joints advantageous. Because the joints are filled with fat and the fat mainly in those facing the joint Part of the bellows, which is similarly the largest diameter shows, settles, very high centrifugal forces occur here.

The invention based on the drawing Darge illustrated embodiments explained in more detail. It shows:

Fig. 1 shows a semi-longitudinal section through a bellows with two successive membranes in the manufacturing days.

Fig. 1a was a bellows according to FIG. 1 in the installation.

Fig. 2 shows a schematic diagram of the initial shape of the membrane and the transfer into the second shape characterized by the installation position, the tangent to the transition region of the two radius of curvature in the initial shape with the hinge axis forms an angle of 90 °.

Fig. 3 is a schematic diagram of the membrane in which the angle of the tangent to the transition region of the two radii of curvature between the outer curvature and the inner curvature is between 0 and 90 °.

Fig. 4 shows a bellows with five axially consecutive membranes.

Fig. 5 is a membrane with several (four) axially offset to the membrane arranged folds and

Fig. 6 shows a bellows according to the invention at an angled position of 30 °.

The bellows 1 shown in Fig. 1 consists of two each other axially downstream membrane regions 4. For its attachment, the bellows 1 is provided on the outer joint part, not shown, with a collar of larger diameter 5 and for attachment to a shaft 2 with a collar of smaller diameter ( 3 ).

It can be seen in FIG. 1 that the radially outer curvature 7 has a substantially smaller radius of curvature than the radially inner curvature 8 . The reason for this is that when the bellows 1 is axially displaced, the radially outer curvature 7, in contrast to the radially inner curvature 8 , is loaded with compressive stresses and otherwise irregular deformations can occur in the radially outer region due to these compressive stresses.

A hinge area 6 a is provided between the membrane area 4 and the folding area 6 , which promotes the rolling behavior in the event of axial displacement.

Fig. 1a shows the bellows of Fig. 1 in the Einbaula ge, in which the bellows 1 has been shortened in its axial length.

Fig. 2 shows a schematic diagram of the diaphragm area of a bellows 1 , the curve shown in FIG. 2 on the right representing the first starting form, which is then converted to the left-hand position identified by the installation position.

The tangent 11 to the transition region between the radially outer curvature 7 and the radially inner curvature 8 forms an angle of 90 ° with the hinge axis in the initial shape.

The shift to transfer the area of the membrane area 4 on the bellows 1 from the first initial shape into the second shape characterized by the installation position requires a relatively large displacement path a.

In this embodiment, it is advantageous that relatively large displacement paths are possible in the case of an axial outward displacement from the joint, without the membrane regions 4 being exposed to large loads.

In Fig. 3 is a schematic representation of a bellows 1 in which is formed in the output form of the tangent 11 at the Faltenbe- rich 6 between the radially outer curvature 7 and the radially inner curvature 8 an angle between 0 and 90 ° with the hinge axis. In this case, only a slight axial displacement is necessary to transfer the membrane region 4 from the first starting shape into the second shape characterized by the installation position.

In FIG. 4, a bellows 1 is shown, which consists of five axially consecutive membrane regions 4, wherein the diaphragm portions 4 rise to the hinge side steadily in diameter.

A folding area 6 is connected to each of the 5 successive membrane areas 4 by the hinge area 6 a.

FIG. 5 shows a bellows 1 in which a plurality of folds 9 are axially associated with a membrane region 4 arranged on the joint side, which folds comprise the shaft 2 . Between the membrane area 4 and the folds 9 , a support area 10 is provided which is supported on the shaft 2 and assumes a guiding function for both the membrane 4 and the folds 9 and is preferably used for fast rotating joints with high centrifugal forces .

At the same time, the support area 10 divides the bellows into a flex area assigned to the membrane area 4 and an axial sliding area assigned to the folds 9 .

In FIG. 6, a bellows according to the invention 1 is under From winklung of about represented by 30 °.

In Fig. 6 it can be seen that when bending the Faltbe rich 6 , by the de curvature set in this state, come to rest on the membrane areas 4 over a large area.

Both thermoplastic materials and rubber can be used as the material for the bellows 1 according to the invention.

Reference list

1 bellows
2 wave
3 bundles of smaller diameter
4 membrane area
5 bundles of larger diameter
6 folding area
6 a hinge area
7 radially outer curvature
8 radially inner curvature
9 fold
10 support area
11 tangent

Claims (6)

1. bellows for sealing a consist of an outer joint part and a connected to a shaft inner joint be standing constant velocity joint, with two collar areas of different diameters and one, arranged between the collar areas flexible flex area, characterized in that the flex area of the bellows ( 1 ) at least is provided with a membrane area ( 4 ), and that the membrane area ( 4 ) in cross section through a radially outer curvature ( 7 ) and a radially inner curvature ( 8 ), a larger radius of curvature than the radially outer pointing curvature ( 7 ) , is formed, and that the membrane area ( 4 ) is convex when viewed from the outside, and over a hinge area ( 6 a) characterized by a small radius of curvature ( 6 a) with a smaller diameter of the bellows ( 1 ) directed concave fold area ( 6 ) is connected, and that at axially together n pressed bellows ( 1 ) the membrane area ( 4 ) from its manufacturing direction in the direction of the collar area ( 5 ) with the large diameter of the bellows ( 1 ) is deformable, the shape of the folding area ( 6 ) being approximately unaffected, and that at an angle of the bellows ( 1 ) the in this case formed folding area ( 6 ) on the membrane area ( 4 ) is applied approximately uniformly curved. 2. Bellows according to claim 1, characterized in that a change in the axial length of the bellows ( 1 ) by changing the radii of curvature of the outer and the inner curvatures ( 7 , 8 ) of the membrane area ( 4 ) is added. 3. Bellows according to claim 1, characterized in that in a manufacturing-related first initial shape of the membrane area ( 4 ) the tangent ( 11 ) to the transition region of the two curvatures ( 7 , 8 ) forms an angle of 90 ° with the Ge steering axis. 4. Bellows according to claim 1, characterized in that in a manufacturing-related first initial shape of the membrane area ( 4 ) the tangent ( 11 ) to the transition region of the two curvatures ( 7 , 8 ) forms an angle less than 90 ° with the hinge axis. 5. bellows for a joint according to claim 1, characterized in that the membrane region ( 4 ) at least one fold ( 9 ) is connected axially in front. 6. Bellows according to claims 1 and 5, characterized in that starting from the larger diameter collar ( 5 ) at least a portion of the adjoining membrane ( 4 ) is reinforced by a fabric layer.