GB2205923A

GB2205923A - Pistons

Info

Publication number: GB2205923A
Application number: GB08812843A
Authority: GB
Inventors: David Francis Fletcher-Jones
Original assignee: AE PLC
Current assignee: AE PLC
Priority date: 1987-06-18
Filing date: 1988-05-31
Publication date: 1988-12-21
Also published as: GB8812843D0; GB8714287D0; EP0295481A2; US4939984A; EP0295481A3

Description

I- 2205923 P i s t o n s The present invention relates to pistons for

internal combustion engines and particularly to pistons having insulated crowns for use in compression ignition e n 9 i n e s.

Piston crowns having insulation to increase the operating temperature of the combustion chamber are well k n o w n.

however, s e e k i n 9 100%.

In most of the pistons shown in the prior art, the level of insulation is very high, usually a temperature increase sometimes as high as

Although large temperature increases may be beneficial in terms of fuel efficiency it is now being realised that lower temperature increases are more beneficial in some respects. For example, it has been found that particulate emissions are signficantly less at lower temperature increases. The reduction in particulate 2 - emissions at a crown surface temperature increase in the region of only 5% to 15% may be sufficient to allow the elimination of a very costly particulate trap from the engine exhaust system.

According to the present invention a piston comp.rises a crown having a cap thereon extending over the crown surface only, the crown cap being composed of an iron-based or a nickel-based alloy and having on the underside thereof ribs which are encast into aluminium alloy which forms the piston body.

In one embodiment of the present invention the piston body may be formed by a pressure casting method such as squeeze-casting.

Preferably the crown cap may also include an annular portion having one or more piston ring grooves. This removes the need to provide separate reinforcement of at least the topmost ring groove such as, for example, by a Ni-Resist cast iron insert bonded by the Alfin process. A further advantage of this is that the topmost ring groove may be positioned closer to the crown surface thus minimising the dead space above the piston ring. Such dead spaces not only affect particulate emissions but also have an adverse effect on other emission parameters of the engine.

1 ^4 3 - In a further modification the crown cap may also comprise a ceramic insert encapsulated therein to further increase the insulation effect. Such a cap may be manufactured by the well known investment casting technique. In this method a ceramic body of the desired shape to be encapsulated is formed by one of a number of known techniques. The ceramic body is then placed and supported in the desired position in a die wax is injected around it, the overall wax corresponding to that of the desired crown ceramic mould shell is then formed around and 1 i q u i d shape then cap shape. A t h e wax pattern in known manner and the wax melted out to leave the ceramic core in place and the void to be filled with molten metal.

The ceramic crown cap may advantageously also include apertures therein in order to control the heat conduction of the subsequently formed piston. By means of the apertures, which may be present in any desired pattern, size and distribution depending upon the specific engine or piston in question, the temperature distribution of the piston crown may thereby be controlled. A more uniform temperature distribution may., therefore. be achieved thus minimising the thermal stresses to which the crown cap and the underlying piston body are subject.

4 In an alternative embodiment the ceramic core may be leached out by chemical means leaving a void or air gap to increase insulation still further.

In order that the present invention may be more fully understood examples will now be described by way of illustration only with reference to the accompanying drawings of which:

Figure 1 shows a section in two mutually perpendicular directions through a piston according to the present invention; Figure 2 shows the underside of the crown cap of the piston of Figure 1; Figure 3 shows a section through the line AA of Figures 1 and 2 viewed in the direction of the arrows; Figure 4 shows a modified embodiment of the piston of Figure 1; and Figure 5 which shows a plan view of the ceramic core of the piston of Figure 4.

Q 11 t - 5 Referring now to Figures 1, 2 and 3 of the drawings and where the same features are denoted by common reference numerals.

A piston is shown generally at 10. The piston comprises a crown cap 11 and a body portion 12 of aluminium.alloy formed by squeeze-casting. The cap 11 is an iron alloy investment casting having a combustion bowl 13 formed therein and is of about 6 mm in section thickness. The cap further comprises an annular portion 15 having the upper two piston ring grooves 16 and 17 formed therein. On the underside groove of the cap are eight radially directed webs 19 which serve to stiffen the cap between the combustion bowl 13 and the annular portion 15. The webs 19 also provide locking means by virtue of the grooves 21 in the edges 22 for the aluminium alloy cast thereabout.

Figures 4 and 5 show an alternative embodiment to that shown in the preceding figures in that the cap 11 encast therein a ceramic core 30. The crown cap and core is again made by the well-known technique of investment casting. The core 30 provides enhanced levels of insulation over the monolithic cap described above. The degree of insulation and the temperature distribution of the piston crown may be further controlled by means of the apertures 31 in the ceramic core shown in Figure 5. The size and distribution of ures will depend upon the specific piston the desired objective. The objectives of control and temperature distribution control by virtue of the fact these apert design and i n s u 1 a t i o n is achieved that during encasting of the core into the crown cap the apertures 31 become filled with the metal being cast 32 thereby providing an array of heat conductive paths through the cap to the aluminium alloy of the piston body 12. The thickness of the core 30 and the metallic layers on either side may be about 2 mm each. This dimension may of course be varied in any desired manner. The ceramic core, for example, may be thinner or thicker depending upon the degree of insulation required; the metallic layers may be of dissimilar thicknesses.

In a modified alternative to the embodiment of Figures and 5 the core piece 30 may be leached out to leave air gap thereby increasing the degree of insulation the crown. The heat conductive pieces 32 may still present to control the temperature distribution of crown and also the degree of insulation. The pieces also stiffen the crown portion and prevent the air gap from being closed up in service.

4 a n o f be t h e 32 c t 7 -

Claims

C 1 a i m S

1.

3.

4.

A piston for an internal combustion piston comprising a crown having a extending over the crown cap being composed of nickel-based alloy and h thereof ribs which are alloy which forms the piston engine, the cap thereon surface area, the crown an iron-based or a aving on the encapt into aluminium bodv.

underside A piston according to Claim 1 wherein the crown cap further includes an annular portion having at least one piston ring groove therein.

A piston according to either Claim 1 or Claim 2 wherein the crown cap includes a non-metallic insert encapsulated therein.

A piston according to Claim 3 wherein the non-metallic insert is a ceramic material.

5. A piston according to either Claim 3 or 4 wherein the insert includes an array of apertures or holes therein which are filled by the encapsulating m e t a 1.

8 A piston according to any one of Claims 3 to 5 wherein the insert has been chemically leached out to leave a void within the crown cap.

A piston according to any one preceding claim wherein the aluminium alloy piston body has been formed by a pressure casting technique.

8. A piston according to Claim 7 wherein the technique is squeeze casting.

9. A piston substantially as hereinbefore described with reference to the accompanying specification and Figures 1, 2 and 3 of Figures 4 and 5 of the drawings.

i 7, 71 I-lolb,:r,. Lcn,,)r. WC1R 4TP Fu-her copies may be obt.ned from The Patent Office, lLb71-z',cJ- 19t-5 ---!.e PECW, 'f - S--e- Branch. St!Ja--y Crky. Orpington, Kent BR5 3RD. Printed by Multiplex teeliiuqje., ltd. St Mary Cray. Kenr. Con. 1 87.