CZ240592A3 - Sliding ring-shaped packing - Google Patents

Abstract

A sliding ring packing between two parts, in particular a packing on the inlet part of a drum filter comprising a stationary packing ring (2) fixed to one of the parts and, pressed onto it, a moving ring (1) coupled with the other of the two parts. To the moving ring (1) is fixed one end of a resilient ring membrane (4) whose the other end is fixed between a guiding ring (8) and a supporting ring (6) between which is seated an overlapping resilient packing (9) providing for the pressure of the guiding ring (8) on the supporting ring (6).

Description

Technical field

The invention relates to a sliding ring seal between two components, in particular a seal at the inlet portion of a drum filter comprising a rigid sealing ring mounted on one of the components to which a movable ring coupled to the other component is pressed onto the supporting ring.

BACKGROUND OF THE INVENTION

Sliding annular seals of large diameter rotating surfaces are used, for example, in drum filters for the treatment of contaminated waste water. In known drum filters, the contaminated waste water is fed into the interior of the rotary drum filter, the bottom of which is in the filtered water, the level of contaminated waste water inside the drum filter being higher than the level of filtered water outside the drum filter drum. The sliding annular seal on the inlet portion of the drum filter serves to prevent the unfiltered water outside the drum filter drum from penetrating between the fixed and rotatable drum filter sections due to the hydrostatic pressure induced by the difference in levels inside and outside the drum filter drum. A feature of these sliding ring seal is a large diameter of the seal surface and the possibility of random radial and axial movement of the rotary drum filter part called ^- "ch inaccurate fit.

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The prior art drum filter seal consists of a hose filled with water at a controlled pressure and positioned between the fixed and rotatable parts of the drum filter. Stretching:.; the hose eliminates the gap between the stationary and rotating parts of the drum filter. Although the rubber hose can be replaced with a hose made of another flexible material, this seal has a low lifetime, unreliable function, increased demand}, for control of operation and maintenance of the drum filter. This type of seal also has a high resistance to rotation of the drum filter.

Further, a sliding annular seal according to U.S. Pat. No. 4,854,598 used in liquid pumps is known. The seal comprises a hard material ring mounted in the pump impeller. A sliding ring made of graphite-saturated resin is forced into this hard-material ring by means of a spring whose force acts axially. The seal is designed for sealing small diameter and high rotation speeds.

The use of this design for the drum filter seal is excluded, as the slide ring would wear out in a very short time and the seal would no longer function. Indeed, the minimum spring force must be dimensioned to the minimum spring force required with maximum wear of the slide ring. Therefore, the pressure force is unnecessarily high in the case of an unused sliding ring.

SUMMARY OF THE INVENTION

The above-mentioned disadvantages of the prior art are overcome by the sliding annular seal according to the invention comprising a fixed ring mounted on one of the parts to which the movable ring is pressed, coupled to the other part, on which the support ring is fastened. SUMMARY OF THE INVENTION It is an object of the present invention to provide a female movable ring with one end of a flexible annular diaphragm, the other end of which is fixed between the carrier ring and the guide ring between which an elastic seal is provided.

In order to improve the attachment of the elastic annular membrane between the carrier and the guide ring and to improve the tightness of the sliding annular seal, it is advantageous if the other end of the elastic annular membrane is threaded onto the guide ring by which the elastic annular membrane is fixed to the support ring, said end of the elastic annular membrane. is pressed by a flexible seal against the guide ring.

A torsion spring can be mounted on the support ring, the free end of which is supported by the movable ring.

Overview of the drawings

An exemplary embodiment of a sliding annular seal according to the invention is shown in the attached drawing.

DETAILED DESCRIPTION OF THE INVENTION

The sliding annular diameter will be described by the new seal inlet seal of the rotating parts of the large and exemplary sliding ring part of the drum filter.

The drum filter comprises a stationary structure 31 ⁱⁿ which an opening is provided through which contaminated water or other filtered liquid enters the interior of the drum filter in the direction of the arrow. A fixed sealing ring 2 is fixedly fixed around said aperture 3 on the stationary structure 3. The fixed sealing ring 2 is in contact with the movable ring 2, the inner diameter of which in the embodiment shown is larger than the diameter of the fixed sealing ring 2. The movable ring 2 is coupled to the face 2 of the drum 55 formed by the annular disc, which is part of the support structure of the drum 5, on which known filter sheets are fixed, through which the contaminated liquid passing through the filter is filtered in a known manner. outside the drum 2 of the drum filter, in which it collects and is drained in a known manner (not shown) · Hole in the face 2 of the drum 2 equal or larger than the inner diameter of the movable ring 2 2 of the drum filter and the level of the filtered liquid outside the drum filter drum 2 creates the hydrostatic pressure necessary for the operation of the drum filter. At the same time, however, contaminated liquid must be prevented from entering the outside of the drum filter 2 outside the filter cloth, which may occur between the drum face 2 ^{and the} movable ring 2 ^, as well as between the movable ring 2 and the fixed sealing ring 2.

In the face 2 of the drum 2 there is a fixed support ring 2 provided with reinforcing bends at the edge, between which a cylindrical part is formed in the illustrated embodiment, the outer surface of which can serve for wrapping by known support and drive means (not shown), for example a belt.

A stop 10 is fastened inside the support ring 6, which may be formed by an annular body attached to the support ring 2, for example by welding, or formed in one piece with the support ring 2.

On the outer periphery of the movable ring 1, a resilient annular diaphragm 4 is mounted on the side 7 of the drum 7, the free end of which is threaded on the inner end of the guide ring 2, which is inserted into the space inside the support ring 6. the guide ring 8 is greater than the outer diameter of the movable ring 11 by more than four times the thickness of the flexible ring membrane 4.

The minimum length of insertion of the elastic annular diaphragm 4 on the guide ring 8 is equal to the size of the bearing surface of the guide ring 8 to the stop 10 of the carrier ring 2. A flexible seal 9 is inserted overlapping between the outer surface of the guide ring 8 and which seals the space between the guiding ring 8 and the support ring 2 · interposition of an elastic gasket 2 ^is mounted while the resilient ring membrane 4 on the guiding ring _8, that the guide ring 8 and ^the annular diaphragm 4 is pressed against the stop 10 of the carrier ring 6_ ·

By applying hydrostatic pressure from the inside to the elastic annular diaphragm 4, due to the rigid connection of the diaphragm 4 to the movable ring 2, the movable ring 1 is pressed against the surface of the solid sealing ring 2 made of abrasion-resistant material. Accordingly, with a sufficient length of the flexible membrane 4, the movable ring 7 made of known graphite-containing material can wear up to three quarters of its length during operation without reducing the sealing effect, and the contact force on the movable ring 1 does not change due to wear and can therefore be minimal at all times. The pressing force acts on the movable ring 1 even if the drum 5 does not rotate.

On the carrier ring 6, as in the illustrated embodiment, a guide 12 can be fixed, on which a torsion spring 11 is mounted, the free end of which is supported on the inner face of the movable ring 7 and which serves to create additional pressure of the movable ring 7. The torsion spring 11 provides for the pressure of the movable ring 1 when the drum filter is put into operation, when the liquid 5 is being filled into the drum 5 and the movable ring 1 is not yet pressed against the fixed sealing ring 2 by hydrostatic pressure. 5 does not yet reach the elastic annular membrane 4,

In another embodiment, not shown, the rigid sealing ring 2 may be mounted on the face 17 of the drum 5, and the movable ring 7 together with the carrier ring 5 and other related parts of the sliding ring seal may be supported on the stationary structure 3.

In operation of the drum filter, contaminated liquid in the direction of the arrow is fed in a known manner into the drum 5 through an opening in the stationary structure 3 via a sliding annular seal.

The contaminated liquid is differentiated by the hydrostatic pressure generated; the levels inside and outside the drum filter drum 5 are filtered in a known manner through the drum sheets 5. Said hydrostatic pressure acts on the resilient annular diaphragm 4 and exerts a thrust on the movable ring 1 via the free portion thereof between the movable ring and the clamping point between the carrier ring stopper 3 and the guide ring 8. The elastic annular membrane 4 thus acts simultaneously as a sealing member of the inner space of the drum 5 and a driving member of the movable ring 11.

Due to the uneven clogging of the drum sheets 5, shocks may occur when the drum 5 is rotated, resulting in a radial or axial swiveling of the drum 5. A radial displacement of the movable ring 1 back and forth over the fixed sealing ring 2 When the drum 5 is rotated axially, the support ring 6 mounted on the drum 5 is rotated axially. Together with the carrier ring (5, the flexible sealing element 9, the guide ring 8 and the part of the flexible ring membrane 4 clamped between the guide ring 8 and the stop 10 of the carrier ring 6 move. The movable ring 1 remains pressed against the fixed sealing ring in both cases of hydrostatic pressure on the resilient annular membrane 40.

The industrial sealable seal inlet sliding annular seal according to the invention can be used for parts of drum water filters or with

For sealing other rotating cl: large diameter parts, rotating at low speed or rotating intermittently ·

The sliding annular seal allows some radial and axial movement of the sealed parts relative to each other.

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Claims (3)

Sliding annular seal between two components, in particular a seal on the inlet portion of a drum filter, comprising a rigid ring mounted on one of the components to which a movable ring coupled to the other component is pressed onto the supporting ring, characterized in that On the movable ring (1) one end of the elastic ring diaphragm (4) is fixed, the other end of which is fixed between the guide ring (S) and the support ring (6), between which (3) an elastic seal is provided. the ring (8) on the support ring (6). Sliding annular seal according to claim 1, characterized in that the second end of the elastic annular membrane (4) is threaded onto a guide ring (8) by which the elastic annular membrane (4) is fixed to the support ring (6), said end the elastic annular diaphragm (4) is pressed against the guide ring (8) by a resilient seal (9). Sliding ring seal according to claim 1, characterized in that a torsion spring (11) is supported on the support ring (6), the free end of which is supported on the movable ring (S).