DE3927458C2 - - Google Patents

Description

The invention relates to a shaft seal with the features the preamble of claim 1.

In a known shaft seal of this type, the Protective and sealing lip with increasing distance from Shaft surface constant and identical to each other axial wall thickness (DE 36 12 420 A1).

A similar shaft sealing ring is known from EP-PA 01 33 928 refer to. The sealing mechanism of this shaft seal is based on the surface contact between the sealing lip part and the wave surface. To ensure a secure seal generate that even at the highest occurring temperatures the inside diameter meets the requirements the sealing washer or the protective and sealing lip smaller than the outside diameter of the shaft to be sealed. This results in a so-called overlap between the components, which means that when installing the Shaft sealing ring, the protective and sealing lip is bent and the bent part with high radial force on the shaft lies. Although a radial force is required for sealing this brings a number of disadvantages at the same time with yourself.

A high radial force creates a braking torque on the shaft, and the shaft must avoid excessive wear costly to edit by the shaft surface for example, needs to be hardened. It should therefore be aimed at  a seal that creates a certain radial force, but this is as low as possible. With the known Shaft seal was therefore on the convex respectively a concentric one on the concave side of the sealing lip circular groove attached, so the flexibility to increase the sealing lip. However, this measure is required a costly tool and fixture expense.

The invention has for its object a generic Shaft sealing ring with regard to its manufacture too cheapen without negatively affecting the service life and sealing quality to influence.

This task is characterized by the characteristics of the Claim 1 solved.

In this way, with just one tool setting Sealing lip can be generated with high flexibility. In order to there is a rational, inexpensive production.

A trapezoidal design of the sealing washer, like it Teaches claim 2 is known per se from DE 30 34 692 A1.

Due to the arrangement of the sealing washer under a pointed one Angle, the protective lip lies relatively flat to the shaft surface, so that the radial force is opposite that of the protective lip known versions is lower.

Furthermore, the radial force can be minimized without To suffer losses in the sealing quality by due to the incision on the protective and sealing lip Sealing edge is formed, the clear diameter of the Sealing edges before installing the shaft sealing ring the outer diameter  corresponds to the shaft to be sealed. These special incision arrangement on the inner circumference of the sealing washer creates a sealing edge here which, in contrast to the State of the art has no coverage. The one for sealing The necessary radial force only arises when bending the sealing lip. Depending on the application, the radial force can be varied by the mechanical manufacturing process through the choice of sealing washer thickness and length as well as Cutting depth and cutting angle the flexibility of the sealing lip is controlled.

A high radial force may be required there is a possibility on the concave side to arrange a return spring for the arcuate sealing lip, which is preferred for fixing the position on the sealing lip axially to a circumferential radial leg of the housing supports.

The pressing of sealing lips by means of ring tension springs and their support on a circumferential radial leg of the housing is known per se ( FIG. 4 of DE 34 02 366 C2).

To avoid running into the shaft surface, the radial arm advantageously has an axial extension on, which is detachably connected to the radial leg. On the one hand, this gives the possibility that the axial Extension after loosening the radial leg of the race of the shaft sealing ring. On the other hand, you can at Sealing washers made of PTFE material after completion mounted on clamping elements and until they are installed in them Condition to be stored on the additional manufacturing dispense with clamping elements and their disposal.

In addition, the hardening of the shaft surface and the Sealing edges can be used when installing the shaft sealing ring  or not damaged during storage. To one adequate lubrication and cooling of the sealing edges during ensure the operation are in the radial leg of the Housing breakthroughs provided.

The invention is shown in the drawing and is explained in more detail below. Show it

Fig. 1 cross section of a shaft seal according to the invention

Fig. 2 shaft seal in the installed state with additional ring tension spring

Fig. 3 shaft seal with race

Fig. 4 detail enlargement of FIG. 3

Fig. 5 shaft sealing ring according to Fig. 3 after installation.

Fig. 1 shows a shaft sealing ring 1, consisting of a metallic housing 2, and a polymeric sealing disc 3. The sealing washer is clamped between two legs 4 , 5 and has a trapezoidal cross section. The sealing disk 3 further consists of an adhesive part 6 connected to the housing 2 and a sealing part 7 corresponding to a shaft, which is split by an incision 8 into a protective lip 9 and a sealing lip 10 . According to the invention, the incision 8 extends at an acute angle α to the axis a of the shaft sealing ring 1 . The sealing washer 3 is fixed in the housing 2 at an acute angle β to the shaft sealing ring axis a. The incision 8 runs from the inner circumference of the sealing disk 3 , starting at the point which corresponds to the outer diameter of the shaft to be sealed. This means that the inside diameter of the sealing edges 11 , 12 formed by the incision 8 on the protective and sealing lip 9 , 10 corresponds to the outside diameter of the shaft. There is therefore no overlap between the sealing edge 11 , 12 and the shaft surface. In the installed state, the radial force required for sealing is created by bending the sealing lip 10 .

In FIG. 2, a shaft seal is shown in the installed state. Due to the special geometric shape and arrangement of the sealing washer 3 within the housing 2 ', the sealing lip 10 is bent when pushed onto the shaft 13 , while the protective lip 9 , due to the position of the incision 8 , retains its original position. To increase the radial force, an annular tension spring 15 is arranged on the concave side 14 of the sealing lip 10 , which in turn is axially supported on a circumferential radial leg 16 of the housing 2 '. The wall thickness of the protective lip 9 increases in proportion to the decrease in the wall thickness of the sealing lip 10 due to the position of the incision 8 . In addition, since there is no overlap with the shaft 13 , the relatively deformation-resistant protective lip 9 is able to keep dirt away from the sealing lip 10 .

FIG. 3 shows another embodiment of a shaft sealing ring according to the invention. On the radial leg 16 'of the housing 2' 'is arranged an axial extension 17 which is' connected to the assembly of the shaft sealing ring via a predetermined breaking point 18 (Fig. 4) to the housing 2'. During shipping or storage, the extension 17 serves as a protective sleeve for the sealing disk 3 . Immediately before or during the installation of the shaft seal, the connection between the radial leg 16 'and extension can be released.

FIG. 5 shows a shaft sealing ring according to FIG. 3 in the installed state. The shaft seal is pushed onto the shaft by means of an assembly tool 19 . The axial extension 17 acting as a protective sleeve during assembly was detached from the radial leg 16 'and now forms the race of the shaft sealing ring. For lubrication and cooling of the sealing edge 12 'openings 20 are provided in the radial leg 16 ' distributed over the circumference.

Claims (6)

1. Shaft sealing ring, consisting of a preferably metallic housing and a polymeric sealing washer with an adhesive part attached to the housing and a sealing part corresponding to the shaft to be sealed, the sealing part being split into a protective and sealing lip by an essentially radially circumferential cut , wherein the incision, viewed in cross section, runs at an acute angle to the axis of the shaft sealing ring, characterized in that the axial wall thickness of the sealing lip ( 10 ) decreases with a radial distance from the shaft surface before assembly and the axial wall thickness of the protective lip ( 9 ) is proportional increases. 2. Shaft sealing ring according to claim 1, characterized in that the sealing disc ( 3 ) has a trapezoidal cross section. 3. shaft sealing ring according to claims 1 and 2, characterized in that the sealing part ( 7 ) before installation, seen in cross section, extends at an acute angle β to the axis a of the shaft sealing ring ( 1 ). 4. shaft sealing ring according to claims 1 to 3, characterized in that through the incision ( 8 ) on the protective and sealing lip ( 9 , 10 ) each a sealing edge ( 11 , 12 ) is formed, and that the inside diameter of the sealing edges ( 11 , 12 ) corresponds to the outside diameter of the shaft ( 13 ) to be sealed before installing the shaft sealing ring. 5. Shaft sealing ring according to claims 1 to 4, characterized in that the sealing lip ( 10 ) after the installation of the shaft sealing ring ( 1 ) has an arcuate cross section, and that on the concave sealing lip side ( 14 ) an annular tension spring ( 15 ) is arranged. 6. Shaft seal according to claims 1 to 5, characterized in that the annular tension spring ( 15 ) is supported axially on a circumferential radial leg ( 16 , 16 ') of the housing ( 2 ', 2 '').