DE102016207672A1 - Sealing system for a shaft - Google Patents

Abstract

A sealing system (100) for a shaft (12) with a shaft grounding ring (10) comprises a shaft seal (130).

Description

The invention relates to a sealing system for a shaft with a shaft grounding ring.

Shaft grounding rings are known in the art. Frequency converters (AC) for AC and DC motors induce harmful electrical voltages on the motor shaft, which can lead to melt craters, pitting and corrugation damage. Shaft grounding rings are used to derive electrical charges from the shaft via loop transformers. In this way, harmful shaft voltages and bearing currents are avoided and prevented by them caused electrical bearing damage. Likewise, the electromagnetic compatibility (EMC) is improved.

Highly conductive fibers are used in the shaft grounding rings as grinding transformers. These fibers may loosen or break and cause soiling that will damage other components such as bearings or seals. Furthermore, free fibers can be introduced into electrical devices and lead to short circuits there.

The object of the invention is to provide a sealing system for a shaft with a shaft grounding ring, in which a threat to other components is prevented.

To achieve the object, a sealing system for a shaft is provided with a shaft grounding ring comprising a shaft seal. The additional shaft seal assures that the number of particles detached from the shaft grounding ring, such as fibers of the slip transferor, which leak outward, is greatly reduced, thereby preventing contamination of areas outside the seal by these particles.

Preferably, the shaft seal is mounted axially adjacent to the shaft grounding ring or integrated into a common housing. Due to this integrated design no or only little additional space is required.

The shaft seal may comprise a sealing lip. This is advantageous because it is box-safe to manufacture and provides an effective sealing function without affecting the shaft.

According to an advantageous embodiment, the shaft seal comprises a chamber filled with a sealant and a sealing ring tightly fitting on the shaft, which projects into the sealant in the chamber. In this way, a shaft seal is provided in which the contact between a shaft-side portion of the shaft seal, namely the sealing ring, and another, radially opposite portion of the shaft seal, namely the portion with the chamber, is made exclusively by the sealant in the chamber. This minimizes friction losses and maximizes shaft seal life. Furthermore, detached particles can be bound in the sealant, whereby a migration of the particles is additionally prevented by the shaft seal.

According to a further advantageous embodiment, the shaft has a radially circumferential shaft shoulder, and the shaft seal comprises a sealing lip, which bears against the shaft shoulder. The shaft shoulder is in addition to the shaft seal a barrier for detached particles. In addition, the shaft shoulder provides a contact surface for the sealing lip, which for example on the bias and / or the contact surface between the sealing lip and the contact surface, the sealing effect and the friction is adjustable. Furthermore, the shaft shoulder can be used to position the sealing system on the shaft.

The sealing lip is preferably at an angle of 80 ° to 100 ° at an axial end face of the shaft shoulder. In this way, the contact surface between the sealing lip and the contact surface and thus the friction and wear can be reduced.

The shaft shoulder can be formed by a patch on the shaft ring, making it easy and inexpensive to produce and can be retrofitted with little effort.

Preferably, the sealing lip is formed of at least one material of the following group: felt, elastomer, metal. Due to their material properties, such as elasticity and / or strength or fatigue strength, these materials are particularly suitable as a material for sealing lips. Sealing lips made of these materials have a particularly high life and sealing effect.

In an advantageous embodiment, a second shaft seal is provided, wherein the shaft grounding ring is arranged in the axial direction between the first shaft seal and the second shaft seal. In this way detached particles remain between the first and the second shaft seal, whereby the region protected by the sealing system extends in both directions axially to the shaft.

Further advantages and features will become apparent from the following description taken in conjunction with the accompanying drawings. In these show:

1 in a sectional view of a prior art shaft grounding ring,

2 in a sectional view of a first embodiment of a sealing system according to the invention,

3 in a sectional view of a second embodiment of a sealing system according to the invention

4 in a sectional view, a third embodiment of a sealing system according to the invention,

5 in a sectional view of a fourth embodiment of a sealing system according to the invention, and

6 in a sectional view of a fifth embodiment of a sealing system according to the invention with two shaft seals.

The figures each show a sectional view of the upper half of a shaft grounding ring and a sealing system along the axis of rotation of the shaft. For the sake of clarity, the representation of the edges behind the cutting plane has been dispensed with.

In 1 is a wave grounding ring 10 shown in the prior art, on a shaft 12 is arranged. The shaft grounding ring 10 includes an annular bearing shell 14 with an L-shaped cross-sectional area 16 which has an end section arranged perpendicular to the axis of rotation R. 18 and an outer portion parallel to the rotation axis R. 20 having. The outer section 20 is radially further away from the axis of rotation R than the end portion 18 ,

Between the outer section 20 and the wave 12 is a grinding machine 22 with two perpendicular to the axis of rotation R and on the shaft 12 adjacent grinding elements 24 . 25 arranged. The grinding transformer 22 Is in the bearing shell 14 by means of a holding element 26 attached, in addition the sanding elements 24 . 25 on the wave 12 keeps spaced apart.

The shaft grounding ring 10 further comprises a cover plate 28 perpendicular to the axis of rotation R on the end portion 18 opposite side of the holding element 26 is arranged and the retaining elements 26 with the grinding transformer 22 in the bearing shell 14 includes.

The grinding transformer 22 has the function of electrical charge from the shaft 12 can be derived, and may be formed for this purpose of highly conductive fibers.

In the 2 to 6 Various embodiments of sealing systems according to the invention are shown, each on a shaft 12 are arranged and all components of in 1 shown shaft grounding ring 10 from the prior art include. These components are identified by identical reference numerals and have the in 1 described structure and the functions mentioned there.

In 2 is a first embodiment of a sealing system according to the invention 100 shown in addition to the shaft grounding ring 10 a shaft seal 130 includes, in the axial direction directly on the cover 28 is appropriate.

The shaft seal 130 has an annular sealing washer 132 and an annular sealing element 134 with one at a time 12 adjacent sealing lip 136 on.

The sealing washer 132 includes an outer disc portion 138 that is on the cover 28 abuts, and an inner disc portion 140 that of the cover 28 is spaced in the axial direction. The inner disc section 140 is opposite the outer disc section 138 in the radial direction closer to the shaft 12 arranged and forms with the cover 28 a chamber 142 that face the wave 12 is arranged.

In this chamber 142 is the sealing element 134 arranged there and can be force, positively and / or cohesively attached.

The inner radius of the sealing lip 136 is smaller than the outer radius of the shaft 12 , whereby the sealing lip 136 in the axial direction of the cover 28 bent away and subjected to a force on the shaft 12 is applied. In this way, a better sealing effect is ensured.

The sealing lip 136 may be formed of a felt, elastomer and / or metal.

In 3 is a second embodiment of a sealing system according to the invention 200 shown in addition to the shaft grounding ring 10 a shaft seal 230 includes, in the axial direction directly on the cover 28 is appropriate.

The shaft seal 230 has an annular sealing washer 232 and an annular sealing element 234 with one on the shaft 12 adjacent sealing lip 236 on.

The sealing washer 232 includes an outer disc portion 238 that is on the cover 28 abuts, and an inner disc portion 240 that of the cover 28 is spaced in the axial direction. The inner disc section 240 is opposite the outer disc section 238 in the radial direction closer to the shaft 12 arranged and forms with the cover 28 a chamber 242 that face the wave 12 is arranged.

Alternatively, the gasket 232 just be executed, that is, the outer disc portion 238 and the inner disc section 240 lie in the axial direction at a height.

The sealing element 234 is on the shaft 12 opposite side 244 the sealing washer 232 arranged thereon and may there be positively, positively and / or cohesively attached.

The inner radius of the sealing lip 236 is smaller than the outer radius of the shaft 12 , whereby the sealing lip 236 in the axial direction of the cover 28 bent away and subjected to a force on the shaft 12 is applied. In this way, a better sealing effect is ensured.

The sealing lip 236 may be formed of a felt, elastomer and / or metal.

In 4 is a third embodiment of a sealing system according to the invention 300 shown in addition to the shaft grounding ring 10 a shaft seal 330 includes, in the axial direction directly on the cover 28 is appropriate.

The shaft seal 330 has an annular sealing washer 332 and one on the shaft 12 adjacent ring 346 on.

The ring 346 has a rectangular cross-sectional area 348 and forms a radially circumferential shaft shoulder 350 with an axial end face 352 ,

The ring 346 can force, form and / or cohesive on the shaft 12 be attached.

The ring 346 may be formed of a felt, elastomer and / or metal.

The sealing washer 332 includes an outer disc portion 338 that is on the cover 28 abuts, and an inner disc portion 340 that of the cover 28 is spaced in the axial direction. The inner disc section 340 is opposite the outer disc section 338 in the radial direction closer to the shaft 12 arranged and has at its the shaft 12 opposite side 344 a sealing lip 336 on.

The sealing lip 336 is formed parallel to the axis of rotation R and is at an angle of 90 ° at the axial end face 352 at the shaft heel 350 at.

The sealing lip 336 may be formed of a felt, elastomer and / or metal.

The sealing lip 336 is integral with the sealing washer 332 executed. Alternatively, the sealing lip 336 positive, positive and / or material fit on the sealing washer 332 be attached.

The sealing washer 332 forms with the cover 28 a chamber 342 , which is intended to catch and collect detached particles.

In an alternative embodiment, not shown, the shaft shoulder 350 instead of the ring 346 , integral with the shaft 12 be educated.

In 5 is a fourth embodiment of a sealing system according to the invention 400 shown in addition to the shaft grounding ring 10 a shaft seal 430 includes, in the axial direction directly on the cover 28 is appropriate.

The shaft seal 430 has an annular sealing washer 432 and one on the shaft 12 tight-fitting sealing ring 454 on.

The sealing washer 432 includes an outer disc portion 438 that is on the cover 28 abuts, and an inner disc portion 440 that of the cover 28 is spaced in the axial direction. The inner disc section 440 is opposite the outer disc section 438 in the radial direction closer to the shaft 12 arranged and forms with the cover 28 a chamber 442 that face the wave 12 is arranged.

The chamber 442 is with a sealant 456 such as fat filled, in which the sealing ring 454 protrudes at least in sections.

The sealing ring 454 is an O-ring.

Alternatively, the sealing ring 454 be formed of a felt, elastomer and / or metal.

The sealing ring 454 can force, form and / or cohesive on the shaft 12 be attached.

The shaft seals 130 . 230 . 330 . 430 in the 2 to 5 shown sealing systems 100 . 200 . 300 . 400 each seal the shaft grounding ring 10 in the axial direction of the cover 28 and protect the area on the to the shaft grounding ring 10 opposite side of the cover 28 , Alternatively, the shaft seal 130 . 230 . 330 . 430 at the end section 18 be arranged and in this way the area on the cover to the 28 opposite side of the shaft grounding ring 10 protect.

in 6 is also a fifth embodiment of a sealing system according to the invention 500 shown in analogy to in 2 shown sealing system 100 is constructed, but in addition a second shaft seal 558 which is on the first shaft seal 530 opposite side of the shaft grounding ring 10 is arranged.

By the shaft grounding ring 10 axially between the first shaft seal 530 and the second shaft seal 558 is arranged, both the area on the shaft grounding ring 10 opposite side of the cover 28 as well as on the shaft grounding ring 10 opposite side of the end portion 18 protected.

In an additional embodiment, not shown, the shaft seal 130 . 230 . 330 . 430 . 530 and / or the second shaft seal 558 have a labyrinth seal.

Claims (9)

Sealing system ( 100 . 200 . 300 . 400 . 500 ) for a while ( 12 ), with a shaft grounding ring ( 10 ), characterized in that the sealing system ( 100 . 200 . 300 . 400 . 500 ) a shaft seal ( 130 . 230 . 330 . 430 . 530 ). Sealing system according to claim 1, characterized in that the shaft seal ( 130 . 230 . 330 . 430 . 530 ) axially immediately adjacent to the shaft grounding ring ( 10 ) is attached. Sealing system according to one of the preceding claims, characterized in that the shaft seal ( 130 . 230 . 330 . 430 . 530 ) a sealing lip ( 136 . 236 . 336 ). Sealing system according to one of claims 1 or 2, characterized in that the shaft seal ( 130 . 230 . 330 . 430 . 530 ) one with a sealant ( 456 ) filled chamber ( 142 . 242 . 342 . 442 ) and one on the shaft ( 12 ) tight sealing ring ( 454 ) incorporated in the sealant ( 456 ) in the chamber ( 142 . 242 . 342 . 442 ) protrudes. Sealing system according to one of claims 1 or 2, characterized in that the shaft ( 12 ) a radially circumferential shaft shoulder ( 350 ) and the shaft seal ( 130 . 230 . 330 . 430 . 530 ) a sealing lip ( 136 . 236 . 336 ) located at the shaft shoulder ( 350 ) is present. Sealing system according to claim 5, characterized in that the sealing lip ( 136 . 236 . 336 ) at an angle of 80 ° to 100 ° at an axial end face ( 352 ) of the shaft shoulder ( 350 ) is present. Sealing system according to one of claims 5 or 6, characterized in that the shaft shoulder ( 350 ) by one on the shaft ( 12 ) attached ring ( 346 ) is formed. Sealing system according to one of the preceding claims, characterized in that the sealing lip ( 136 . 236 . 336 ) is formed of at least one material of the following group: felt, elastomer, metal. Sealing system according to one of the preceding claims, characterized in that a second shaft seal ( 558 ) is provided, wherein the shaft grounding ring ( 10 ) in the axial direction between the first shaft seal ( 130 . 230 . 330 . 430 . 530 ) and the second shaft seal ( 558 ) is arranged.

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