AU608249B2

AU608249B2 - Fuel injection system component

Info

Publication number: AU608249B2
Application number: AU79166/87A
Authority: AU
Inventors: Peter Oliff; John Turner
Original assignee: Ford Motor Co Ltd; Ford Motor Co
Current assignee: Ford Motor Co Ltd
Priority date: 1986-09-17
Filing date: 1987-09-16
Publication date: 1991-03-28
Anticipated expiration: 2007-09-16
Also published as: GB8622425D0; EP0261855A1; WO1988002067A1; ATE69294T1; DE3774384D1; AU7916687A; EP0261855B1; GB2195394A

Abstract

In order to enhance fuel integrity, the fuel injectors 18 together with the associated fuel feed and return passages 22 and 24 are formed in a single block 10 which also includes the air feed passages 16 to the engine cylinders. The incorporation of all these elements into a single block means that the block can be pre-assembled and tested for fuel tightness before being built in to an engine.

Description

A1141-79616/87) WORLD INELCL11i~'!- 4 9 International Bureau Pcr INTERNATIONAL APPLICATION PUBLISHED UNDER THE PATENT COOPERATION TREATY (PCT) 1) International Patent Classification 4 (11) Interna tional Publication Number: WO 88/ 02067 F02M 55/02, F02D 9/02 A] F02M 61/14, 69/00, 69/04 (43) International Publication Date: 24 March 1988 (24.03,88) (21) International Application Number: PCT/GB87/00645 (81) Designated States: AU, BR, JP, KR, US.

(22) International Filing Date: 16 September 1987 (16.09.87) Published With international search report.

(31) Priority Application Number: 8622425 Before the expiration of the tirne limnitjfor amiending the claims and to be republished in the event of the receipt (32) Priority Date: 17 September 1986 (17,09,86) of amendinents, (33) Priority Country: GB (71) Applicant (for all designated States except US): F&RD 4 Mt&TR-&M fPA-NV [US/US; County of Wayne, &Dearborn,

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I 4 8 2 (US IY18 (12) Inventors; and IW' Inventors/Applicants (for US only) TURNER, John [GB/GBI; 71a Seymour Road, Hadleigh, Essex

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OLI FF Peter [GB/GBJ; 20 Hilltop Close, Rayleigh, ASRLA Essex -7 APR 1988 (74) Agenti MESSULAM, Alec, Moses; A, Messulam Co., P OFC 24 Broadway, Leigh on Sea, Essex SS9 I BN (GB).PAETOFC (54) Title: FUEL INJECTION SYSTEM COMPONENT This doctirent contains w amendtments made uinder Sectiotn 49 and is correct for printing Abstract In order to enhance ruel Integrity', the fuel Injectors (18) together With the associated fuel teed and return passages (22) and (24) are rormed in a single block which also includes the air reed passages (161 to the engine cylinders. The Incorporation of all these elements into a single block means that the block can be pre-assemblgd and tested for fuel tight.

ness I)crore being built into an engine, l 198 POT/GB 87 /00645 FUEL INJECTION SYSTEM COMPONENT This invention relates to a component for a fuel injection system for use with an internal combustion engine.

It is of the utmost importance that fuel integrity a complete absence of any leaks) is maintained in the fuel feed route to the engine combustion chambers in an internal combustion engine. Where fuel injectors are employed to introduce the fuel to the chambers, the connection of the fuel lines to the injectors needs to be carefully and effectively made. Conventionally, this connection is made through a fuel rail which carries injector cups each of which is connected to one of the injectors. The actual connection is made on the engine assembly line and then has to be tested for fuel tightness before the engine can be accepted.

It is an object of the present invention to avoid having to test the fuel line-to-injector joint for tightness during engine assembly. It is another object of the invention to reduce assembly time by preassembly of certain components.

According to the invention, there is provided a fuel injection system component adapted to interface at one side with an engine cylinder head and at another side with an air intake manifold, the component comprising a block in which a plurality of air passages extend from said one side to said another side, the block including two passages for each cylinder of the engine, a port deactivation valve in one of the passages, a plurality of fuel injector seats, and fuel feed and return passages communicating with the injector seats.

The injector seats are preferably adapted to receive tipfeed injectors, and each seat may contain such an injector.

LSUnlted Kinqdom FatM 911 I SUBSTITUTE SHEET n. Y4 tdl C C, i- i ~iY 3 1 1 i i 14 April. 198 T/G 837 0C 64i The use of tip-feed injectors is of benefit in the hot fuel handling operation of the system. This benefit is further enhanced oy inclusion of the fuel inlet and return lines in the injection unit, thereby providing an- efficient method of purging any gases or moisture from the system.

With this component, the fuel line connections to the individual injectors are made inside the block. The block can thus be put together off line and tested for fuel tightness before being assembled to the engine on the main assembly line. All that is then required on the assembly line is to connect fuel feed and fuel return lines to the block, and these connections can be made through connectors of a type which are simple to secure.

A conventional fuel rail includes a pressure regulator for controlling the fuel pressure, in the rail. The pressure regulator may be incorporated in the block, of the invention, either as a bolt-on unit, or the regulator body may be formed integrally in the block, The port deactivation valve may be in either tract of a twin inlet valve engine. There may be a single injector feeding either one o.0 the other of the tracts, or mounted centrally between the tracts with a divided spray. The spray divider could be mounted on the injector itself, or formed as part of the block. Alternatively, there could be an injector for each tract, preferably with a balance passage between the tracts.

An idle air supply duct can be provided in the block to supply idle air to the engine independently of the air supply route employed when the engine is running under full or part load. This idle air can be supplied through an idle speed valve or motor functioning in a known manner, but the valve or motor itself can be built in to the block in the same manner as the pressure regulator. The block may also include a crankcase air inlet.

UBSST 'Te SHEET United Kiondom Patnni U0ti I T irrrl' A tllnMP" SUBS~iwt &ncc"f p^T ii,r. rC1 i A r A .pril 1988

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3 PCT/GB 87/00645 Passages are provided to communicate the idle air and crankcase emissions to the inlet port. The idle air passage and the crankcase emission passage may be independent or combined, and can be fed to primary or secondary inlet tracts. Non-return valves can be provided in the block to prevent pressure interaction between difrerent intake ports.

The invention will now be further described, by way of example, with reference to the accompanying drawings, in which: Figure 1 is a diagrammatic, sectional view through an injection system component in accordance with the present invention; e:nd Figure 2 is a plan view, partly in section, of the component of Figurp 1.

The component shown comprises a block 10 which will normally be of cast metal, such as aluminium or an aluminium alloy machined to provide the necessary seats and mating faces which will be detailed later on. The block will replace the downstream end of the air intake tract 14.

The block 10 is attached to a cylinder head 12 in a conventional manner, with the interposition of a gasket which is not shown. Upstream the block is connected, again with the interposition of a gasket, to air inlet tracts 14.

Tightness between the block and the cylinder head is essential to maintain fuel integrity. The joint between the block 10 and the tracts 14 will be made tight but is not crucial to the fuel integrity, as fuel is only introduced downstream of this joint. It is however essential that the seal be air-hight to allow correct functioning of the complete inlet system.

U

R SHEET UrHtd Ki;n k m~c kI.*f f'* 14 Aprif 1988 TG 7 /0064 An air passage 16 runs through the block 10. A fuel injector 18 is fitted in a seat 20 so as to communicate with a fuel feed passage 22 and a fuel return passage 24.

The injector shown is a tip-feed injector.which has a short overall length and can be completely housed in the seat with the only projecting part being the necessary electrical connections 26. In this way, the injector can be fully sealed in the block. The injector will be positioned so as to direct injected fuel at the engine intake valve 28.

A port deactivation valve 30 is positioned in the passage 16. Port deactivation allows two or more tracts to be available to supply air to any one cylinder at times of peak demand, and for one or more of these tracts to be opened or closea as required for particular engine operating conditions.

A crankcase air inlet 32 (to cope with crankcase emissions) is provided in the block together with an idle air inlet 34 which is connected through an idle speed valve or motor 36. Additionally (see Figure a pressure regulator for controlling the fuel pressure in the fuel return passage 24 is fitted in the passage 24. As can be seen in Figure 2, the pressure regulator comprises a housing which is formed directly in the block 10, by suitable casting or machining of a cavity in the block. A cap 38 is then fitted in the block 10 to completeo the regulator. Similarly, the housing for the idle speed valve or motor 36 is formed directly in the block The block 10 can be of aluminium (or other metals) or of plastics. It is not exposed to great heat, but an insulating body should be fitted between the cylinder head 12 and the block 10 to prevent excessive heat transfer from the engine to the block 10. It may be possible for the gasket to provide this heat insulating function. The complete component can be used equally effectively with SUBST-TUTE SHEET ea.Cl- tfrtL L t ,Cw ui MrAt'f~ni i i Apri 19a PCT r! -1 engines with one or more inlet valves per cylinder. The use of a single block allows complete preassembly and pretesting of the fuel supply connections. At the time of final engine assembly, it will only be necessary to fit fuel pipes to a block inlet 40 and a block outlet 42, and this can be done through conventional pipe unions which are unlikely to present any leakage problems. Electrical connections are required to the injectors, as are crankcase air and idle air by-pass connections to the block, but none of these will interfere with fuel integrity.

Additional features which can conveniently be incorporated in the component are: 1. A potentiometer mounted as part of the port deactivation system so that the angular position of the port deactivation throttles can be used as an input to an engine management computer; 2. A temperature sensor or switch to give a fuel inlet temperature input to the engine management system.

3. A Schrader valve in the fuel inlet or return system to enable fuel pressure to be monitored for engine servicing and fault-finding.

9,ISt&n"...u 1Unied Kina mf b( l.,,ioti

Claims

1. A fuel injection system component adapted to interface at one side with an engine cylinder head (12) and at another side with an air intake manifold (14), characterised in that the component comprises a block in which a plurality of air (16) passages extend from said one side to said another side, the block (10) including two passages for each cylinder of the engine, a port deactivation valve (30) in one of the passages, a plurality of fuel injector seats (20) and fuel feed and return passages (22, 24) communicating with the injector seats

2. A fuel injection system component as claimed in Claim 1, wherein the injector seats (20) are adapted to receive tip-feed injectors.

3. A fuel injection system component as claimed in Claim 2, wherein each seat (20) contains an injector.

4. A fuel irjection system component as claimed in any preceding claim including a pressure regulator for controlling the pressure in the fuel return passage (24). A fuel injection system component as claimed in Claim 4, wherein the pressure regulator is a bolt-on unit.

6. A fuel injection system component as claimed in Claim 4, wherein the pressure regulator has a regulatox body formed integrally in the block.

7. A fiuel injection system component as claimed in any preceding claim, wherein an idle air supply duct (34) is provided in the block (10) to supply idle air to the engine independently of the air supply route employed when the engine is running under load. ,U W T United Kirdrchm Patent OffT- i I PCT Iw.i.i,.ditw'al Anollfot,. t AP 1 1988 POT/00~~';~ -7-

8. A fuel injection system component as claimed in Claim 7, whcrrein the idle air is supplied through an idle speed motor (3 6)

9. A fuel injection system component as claimed in Claim 8, wherein the motor (36) has a housing formed integrally in the block A fuel injection system component as claimed in arty preceding claim.r, wherpein the block (10) also includes a c~rank~case air inlet (32). "i'BSTITUT!" SHEET ~dI Ap 1 ~p. nTl gt, 4 -1 i