GB2114265A - Sealing/centering pneumatic brake piston - Google Patents

Abstract

A piston particularly for use in railway brake cylinders, comprises a flexible piston seal 15 and a multi- function ring in the form of a separate wear band 16. The wear band is located close to and on the pressure side of the piston seal to minimise radial motion of the sealing ring if the piston rocks. In Fig. 1 the rubber piston seal 15, has a sealing lip 18 in contact with the inner wall of the cylinder 10. The wear band is chamfered at 19 so that the portion 20 of the wear band closest to the sealing ring 15 is the part of the wear band that actually contacts the inner wall of the cylinder. The plane about which the wear band rocks passes through the point 20 and this is closely adjacent the lip 18 which is the point of contact of the sealing ring with the cylinder. The wear band has a small scraper lip 23 projecting towards the sealing ring 15. Between the wear band and the sealing ring is a grease retaining cavity 24. This cavity is partially formed by an annular recess in the face of the piston seal 15 and partially by the shape of the rear face of the wear band 16. <IMAGE>

Description

SPECIFICATION Piston sealing arrangement This invention relates to a piston sealing arrangement and particularly to piston seals and wear bands as used on pneumatic piston/cylinder devices. Particularly, but not exclusively, the invention has application to brake cylinders of the kind which are used in railway brake systems. Historically, leather, normally mechanically loaded radially by some form of expander ring, was used for the seal between the piston and the cylinder wall.The transition from leather to rubber seals in pursuit of economy, reduction of air leakage and increased overall cylinder efficiency, was accompanied by the need to consider improved location of pistons within cylinder bores, because of the differing physical forms of the seals, differing material characteristics and because the rubber seals were primarily designed, in the first place, for use in hydraulic piston and cylinder arrangements where conditions are somewhat different. Certain features typical of hydraulic equipments, for example extremely tight dimensional tolerances and superfine surface finishes associated with minimal working clearances, are neither economically nor functionally appropriate to pneumatic cylinders of the type here considered.Also low initial pressure and, frequently, slow pressure rise in pneumatic systems make it necessary carefully to control seal lip contact with cylinder bore so as to avoid initial air bypass with consequent failure to build up operating pressure. A significant factor in the use of rubber seals in pneumatic arrangements is the lack of continuous lubrication provided by the fluid pressure media used with hydraulic arrangements. The capacity of leather to absorb and retain liquid grease type lubricants applied on assembly provided a measure of continuing lubrication in service for seals of that material. In contrast, natural and synthetic rubber seals are relatively impermeable and tend to scrape to each end of th6 operating stroke any grease applied during assembly, or subsequently by lubrication points.

Because of the relatively large piston/cylinder clearances used with piston and cylinder arrangements and the weight of the pistons, the seal tends to take a set in cold weather when not under pressure and is slow to recover for example after lengthy periods of parking on mechanical brake or during running where brake application may be infre quent.Furthermore the piston tends to knock against the cylinder wall causing damage through bottoming on the cylinder.

To minimise impact damage and to centralise the piston it has been customary to introduce a wear band behind the seal or piston ring i.e. on the low pressure side of the piston.

Another problem that arises is that it is customary to rebore cylinders and the lips of rubber seals will not usually maintain adequate sealing contact pressure within the additional diameter of the internal piston wall by their own elasticity. This makes the problem somewhat worse and, although the wear band helps, generally speaking it is necessary to have a new wear band, possibly a new piston and certainly a new seal on rebore. The problems are accentuated with rocking pistons because placing the wear band behind the seal causes a large radial movement of the seal lip when the piston rocks. Special and relatively expensive seals have been necessary in some cases in attempts to overcome problems inherent in lip deformation and minimal lubrication.

An object of the invention is to alleviate some or all of the problems by a particular design of expandable piston ring which, by virtue of its form and positioning relative to a standard readily obtainable and inexpensive seal element, combines in one single part advantages usually sought by a variety of means in association.

In accordance with the invention a piston sealing arrangement comprises a flexible piston seal and a multi-function ring, effectively a separate wear band, the wear band being located on the piston on the pressure side of the piston seal in order to bring the plane of contact between the wear band and the cylinder, about which the piston will rock, close to the line of contact between the piston seal and the wall of the cylinder thereby minimising the radial motion of the sealing ring at the seal line consequent upon any rocking of the piston.

Preferably the piston seal is in the form of a main portion with an external lip extending outwardly from the main portion at the pressure end of the piston ring, the lip acting as the seal between the piston and the cylinder.

The wear band is preferably placed close to said lip.

It is preferred that the wear band should include an inner flange or projecting lip adapted to seat on a correspondingt inner flange on the sealing ring. The wear band is preferably split so that it will expand to take up its position on the sealing ring. This enables the same wear band to be used even after a cylinder has been rebored, as will be apparent later in this specification.

The wear band and piston seal are preferably so shaped that a cavity or recess for a retention of grease is formed between the facing surfaces of the wear band and the piston seal. For example the piston seal may have an annular recess in its face which is adjacent the wear ring.

The lip of the piston seal may thus be arranged to scrape grease from the piston bore and deposit it in said cavity or recess.

The wear band may also be formed with a lip which extends towards the piston seal so that it will also act as a scraper to collect grease which may bypass the sealing ring and deposit the grease in the cavity or recess.

The external surface of the wear ring, at the pressure end of the wear ring is preferably chamfered. This shallow chamfer on the edge of the wear ring remote from the seal and the similarly angled part of the seal periphery, on its non-pressure side, allows the grease film on the cylinder bore to bypass the one element for collection by the other, according to the direction of piston travel, maintaining effective lubrication at the moving interfaces and tending to maintain the grease annulus completely full of lubricant. The invention has particular application to rocking pistons i.e.

pistons which are pivoted on piston rods or pistons attached to rods which themselves are pivoted externally of a cylinder.

The piston seal may be made of any suitable resilient material but is preferably of natural or artificial rubber or a plasics material. The wear band is preferably of a harder low friction material such as a plastic e.g.

nylon or acetal. In appropriate circumstances it could also be made of other materials such as soft metal alloys.

In the accompanying drawings, Figure 1 is a side elevation partially in section of a railway brake cylinder, and piston arrangement embodying the invention, and Figure 2 is an enlarged section of a modified piston sealing arrangement incorporating the piston ring and wear ring in accordance with this invention.

Fig. 1 shows a pneumatic brake cylinder 10 in which is located a piston 11, the cylinder being closed by an end plate 1 2 with a sealing arrangement between the end plate 12 and a rod 13 attached to the piston 11.

The sealing arrangement is the subject of our co-pending application claiming priority from G.B. Patent Application No. 8202637 filed 29th January, 1 982.

The piston 11 has an external radially directed flange 14 which acts as a backing plate for a piston seal 1 5. Located on the pressure side of the piston seal 1 5 is a wear band 1 6 held in place by an L-shaped ring 1 7 welded to the piston 11.

It will be noted that the wear band 16 is located very close to the piston seal 1 5 on the pressure side of the piston seal 1 5. The piston seal 15, which is made of rubber, has a sealing lip 1 8 which acts as the seal in contact with the inner wall of the cylinder 10.

The wear band is chamfered at 19 so that the portion 20 of the wear band closest to the sealing ring 1 5 is the part of the wear band that actually contacts the inner wall of the cylinder. The plane about which the wear band rocks passes through the point 20 and this is closely adjacent the lip 18 which is the point of contact of the sealing ring with the cylinder.

The wear band has a lip or flange 21 adapted to seat on a corresponding inner flange 22 of the sealing ring 1 5.

The wear band also has a small scraper lip 23 projecting towards the sealing ring 1 5.

Between the wear band and the sealing ring is a grease retaining cavity 24. This cavity is partially formed by an annular recess in the face of the piston seal 1 5 and partially by the shape of the rear face of the wear band 1 6.

Because the point of contact of the wear band with the wall of the piston is close to the lip 18 of the piston seal 15, the amount of movement of the lip 18 when the piston rocks is very small.

The combination of the lips 23 and 18 ensures that grease is collected within the grease cavity 24 so that there is always a supply of grease to the sealing arrangement.

The fact that the piston seal 1 5 is of resilient material (rubber) which flexes during applications and releases of pneumatic pressure ensures that there is a constant movement of the grease and this, in conjunction with the tendency to a rudimentary circulation induced by the shapes of wear band and seal during stroking of the piston, maintains a band of effective lubricant at the interface of seal lip and cylinder bore.

If the cylinder is rebored then a standard piston seal and the same wear band may be used after the rebore. To enable this to be done an additional rubber ring is placed around the piston adjacent the flange 14, the rubber seal 1 5 is then stretched over the additional ring so as to bring the seal lip 1 8 radially further out towards the enlarged diameter inner wall of the cylinder, and then the wear band may be fitted slightly expanded, over the newly positioned piston seal. The fact that the wear band is split enables this to be done.

With this arrangement of wear band and piston ring the effect is of close piston/bore clearance without actual and damaging metallic contact between the parts and there is thus more positive maintenance of the piston centrally, notwithstanding relatively wide dimensional tolerances, since the resilience of the base of the seal on which the wear band is located permits compliance by the split wear band with variations in cylinder diameter. Furthermore, rocking of the piston is permitted at least 3" either side of normal and even when rocking occurs there will always be good contact between the seal lip and the cylinder bore, adequately lubricated to ensure an efficient and effective seal. A further advantage is the cushioning effect of seal base and wear band resilience, minimising the effects of vibration-induced shock loading and preventing metal to metal impact between piston and cylinder bore. Thus, although re-boring is provided for, the operational period prior to rebore may be greatly extended or reboring may not be required at all since the damaging, scuffing, impacts between piston and cylinder are eliminated co-incidentally with improved lubrication.

The facility of rocking the piston without loss of sealing efficiency permits the use of simpler, lighter, less expensive piston rod assemblies capable of following the arcuate motion of levers operated by the cylinder assembly without recourse to cross-heads or piston trunk tubes with separate loose rods.

Fig. 2 shows a more detailed modified version of the invention. The L shaped ring 1 7 is not employed, the wear band 1 6 and piston seal 1 5 being trapped in a recess 26 in the piston 11. In this drawing the cylinder is shown as having been rebored and a seal expander ring 25, which is continuous rather than split, and is made of a similar material to the seal 15, is located in the recess to support the seal 1 5. In other respects the construction is similar to that shown in Fig. 1.

The thickness of seal expander ring 25 represents the radial difference between the old and new cylinder bores. The piston ring or seal 1 5 is expanded by the ring 25 to maintain the original ring/seal/cylinder relationship.

Claims (11)

1. A piston sealing arrangement comprising a piston with a flexible piston seal, located on the piston and a multi-function ring in the form of a separate wear band, the wear band being located on the piston on the pressure side of the piston seal in order to bring the plane of contact between the wear band and the cylinder, about which the piston will rock, close to the line of contact between the piston seal and the wall of a wall of the cylinder, thereby minimising the radial motion of the sealing ring consequent upon any rocking of the piston.

2. A piston sealing arrangement according to Claim 1, in which the piston seal is in the form of a main portion with an external lip extending outwardly from the main portion at the pressure end of the piston ring, the lip acting as the seal between the piston and the cylinder.

3. A piston sealing arrangement according to Claim 2 in which the wear band is placed close to said lip.

4. A piston sealing arrangement according to any of claims 1 to 3 in which the wear band includes an inner flange or projecting lip adapted to seat on a corresponding inner flange on the sealing ring.

5. A piston sealing arrangement according to any preceding claim in which the wear band is split so that it will expand to take up its position on the sealing ring.

6. A piston sealing arrangement according to any of claims 1 to 5 in which the wear band and piston seal are so shaped that a cavity or recess for a retention of grease is formed between the facing surfaces of the wear band and the piston seal.

7. A piston sealing arrangement according to Claim 6 in which the piston seal has an annular recess in its face which is adjacent the wear ring.

8. A piston sealing arrangement according to Claim 6 or Claim 7 in which the lip of the piston seal may thus be arranged to scrape grease from the piston bore and deposit it in said cavity or recess.

9. A piston sealing arrangement according to any of Claims 6 to 8 in which the wear band is also formed with a lip which extends towards the piston seal so that it will also act as a scraper to collect grease, which may bypass the sealing ring, and deposit the grease in the cavity or recess.

10. A piston sealing arrangement according to any preceding claim applied to a piston which is pivoted on a piston rod or to a piston attached to a rod which itself is pivoted externally of a cylinder.

11. A piston sealing arrangement according to any of Claims 1 to 10 in which the piston seal is made of natural or artificial rubber or a plastics material.

1 2. A piston sealing arrangement according to any of Claims 1 to 11 in which the wear band is made of a hard low friction plastics material.

1 3. A piston sealing arrangement according to any of Claims 1 to 1 2 in which the wear band is made of a soft metal alloy.

1 4. A piston sealing arrangement according to any preceding claim in which the external surface of the wear ring, at the pressure end of the wear ring is chamfered.

1 5. A piston seal arrangement substantially as hereinbefore particularly described and as illustrated in the accompanying drawings.