This application is a national stage application under 35 USC 371 of PCT Application No. PCT/EP2017/052995 having an international filing date of Feb. 10, 2017, which is designated in the United States and which claimed the benefit of GB Patent Application No. 1603445.6 filed on Feb. 29, 2016, the entire disclosures of each are hereby incorporated by reference in their entirety.
This disclosure relates to engines which utilize direct fuel injection technologies and has particular application to engines which incorporate common rails or accumulator volumes to supply injectors, and in particular a method of mounting such common rail or accumulator volumes.
Direct fuel injection engines typically provide high pressure fuel to a set of fuel injectors. Typically the fuel is pressurized by a system which includes a high pressure pump and supplied to a common accumulator volume such as a common rail, where pressurized fuel is supplied to a number of injectors from this volume via high pressure conduits/pipes. By having a common volume, a high pressure fuel reservoir is effectively provided and there is no need to have separate fuel pumps for each fuel injector. Usually the accumulator volume is elongate in form and forms e.g. a rail like structure spanning the length of the inlet portion of the manifold. Separate pipes from the accumulator/common rail provide fuel to the fuel injectors. Having an elongate rail accumulator volume allows these pipes which fluidly connect the rail to the separates injectors to be short in length. The rail is commonly referred to as a “common rail”.
It is an object of the invention to provide an improved arrangement of mounting the accumulator volume/common rail to the engine and mounting the fuel supply pipes which supply the fuel injectors.
In one aspect is provided an engine fuel rail arrangement, comprising an engine including a fuel rail mounting cradle, and a fuel rail fixed thereto, said fuel rail including one or more outlets connected to respective fuel injector pipes, wherein said arrangement includes common fixing means to fix both the fuel rail to the cradle and fix said fuel injector pipes to respective outlets in the fuel rail.
Said cradle may include at least one mounting surface for mounting of said fuel rail and said common means includes clamping means adapted provide a force to hold/fix said pipe(s) into position to respective fuel outlets on the fuel rail, said force additionally providing force to secure said rail to said cradle.
Said clamping means may include bracket means.
Said clamping means may include tightening means to provide said force.
Said tightening means may comprise a tapped hole in said clamping means to receive screw or bolt means.
Said bracket may be is part of said cradle means.
Said cradle means may include a portion which surround the camshaft of the engine.
Said cradle means and said bracket means may be formed as separate components which include portions thereof which co-operate to surround the camshaft.
Said common fixing means may include or comprises a common component.
Said common component may comprises a fixing plate, adapted to secure said rail to said bracket or cradle and as well as secure one or more pipe to the respective outlet(s).
Said fixing plate may include at least one tapping or bore to allow securing means pass therethrough to a tapping or bore in the cradle.
Said fixing plate may include at least one pipe tapping or bore to allow the pipe to an injector to be connect and/or tightened to the said respective injector outlet (orifice) in the fuel rail.
The arrangement may include screw means adapted to cooperate with said pipe tapping bore to tighten the pipe to said injector outlet/orifice.
The arrangement may include a yoke member adapted to support and secure plurality of pipes to the respective outlets in the fuel rail and including means to secure said yoke member to said fixing plate.
Said cradle is forged with said engine block.
In other words, in examples is included an arrangement including a mounting cradle and fixing means (adapted to fix the rail to the cradle) and includes further fixing means to fix high pressure fuel injector pipes to the respective outlets in the fuel rail, wherein first and second fixing means are common or utilize a common component.
The term “fix” with respect to the fuel rail should be interpreted as to also position/mount/clamp/secure or locate said fuel rail. The term “fix” in respect of the pipe(s) (conduits to the individual fuel injectors) should be interpreted as to include connecting or holding the pipe(s) into position on the fuel rail, i.e. to the respective fuel rail outlets, so as to fluidly connect the fuel rail to the pipes.
The fixing plate may be any appropriate shape and does not have to be “plate” or “flat” shaped; it is affixing member used to secure the fuel rail to the cradle.
Thus examples cover the mounting the common rail (accumulator volume) using a clamping means where the high pressure pump pipe mounting/tightening features are integrated into the (rail clamp) clamping means In some examples the HP pipe loading/securing force is used to clamp the rail in position on the engine. Examples provide for removing the previous protruding HP ports from the rail, allowing for a simple tubular construction. Clamping the rail tube directly removes the need for separate mounting brackets: similar to the HP port removal the design can be simplified significantly. Robustness to engine vibration is improved via direct restraint of the rail mass, increasing of joint stiffness at the bracket location and HP pipe connection. Integrating the clamp and HP pipe mounting can help reduce FIE installation envelopes, therefore aiding engine downsizing and access for assembly tooling. The number of assembly operations can be reduced.
a, b, c and d show further examples according to further aspects;
A mounting block/plate 3 is used to secure the common rail into the cradle/bracket means, and is fitted to the cradle by any suitable means such as by screw or bolts means 4, into respective thread in the bracket/cradle. The common rail includes a number of outlets 7 to high pressure (HP) pipes 5 which feed fuel to corresponding injectors. In examples the pipe, is connected to the fuel outlet from the common rail using the same mounting block/plate 3.
The mounting block/plate may include a bore through which the pipe is fitted to corresponding fuel outlet port in the common rail, e.g. via screw means 6 may be used to tighten the respective end of the pipe to the fuel outlet.
There may be one or more brackets/cradles; the number and location may vary according to design. Thus in this example, the means for fixing the common rail to the engine (e.g. cylinder head) utilizes a fitting (bracket) which is also used to secure/fix the fuel pipe to the fuel outlet of the common rail. By having this common component the high pressure pump pipe mounting/tightening features are integrated into the (rail clamp) clamping means.
a, b, c and d show alternative designs.
According to some examples some of the them are “self-fixture” where they fixtures provide rail location and carry the weight of the rail—potentially eliminating the need for additional tooling on the assembly line.
Number | Date | Country | Kind |
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1603445.6 | Feb 2016 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/052995 | 2/10/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/148683 | 9/8/2017 | WO | A |
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