GB2193761A - Fuel pumping apparatus - Google Patents

Description

1 GB 2 193 761 A 1 SPECIFICATION whereupon said valve means operates to ap

ply the output pressure of the low pressure Fuel pumping apparatus pump to the inner ends of said vanes.

An example of an apparatus in accordance This invention relates to a fuel injection pump- 70 with the invention will now be described with ing apparatus for supplying fuel to an internal reference to the accompanying drawings in combustion engine and of the kind comprising which:

a housing in which is mounted a high pressure Figure 1 is a diagrammatic representation of pump and a low pressure pump having an a fuel system incorporating the apparatus, outlet and which supplies fuel under pressure 75 Figure 2 shows the detailed construction of to the high pressure pump, the housing defin- a low pressure pump forming part of the ing a space in which is located a component apparatus, or components of the high pressure pump and Figure 3 is a fluid circuit diagram of the in which space fuel can accumulate, the appa- apparatus, ratus including a relief valve for controlling the 80 Referring to Figures 1 and 3 of the draw- pressure in said space and the low pressure ings, the fuel system includes a fuel injection pump being of the rotary vane type. pumping apparatus 10 which includes a hous- In a known form of such an apparatus the ing 11 in which is mounted a high pressure low pressure pump has four vanes with the pump 12 and a low pressure pump 13. The diametrically opposed vanes being joined to- 85 two pumps are driven by a drive shaft 14 gether. The tips of the vanes co-operate with which is connected to a rotary part of the a generally eccentrically disposed surface to associated engine so as to be driven in timed achieve the pumping action and the production relationship therewith. The apparatus has a of the aforesaid surface requires great care to fuel inlet 15 which is connected by way of a ensure that the minimum clearance exists be- 90 fuel filter 16 to a fuel supply tank 17. Within tween the tips of the vanes and the surface the housing 11 of the apparatus there is de as the rotor, in which the vanes are mounted, fined a space 18 which contains moving parts rotates. The advantage of such a pump is that of the high pressure pump which must be lu the vanes are positively moved in the slots in bricated and fuel is allowed to accumulate in which they are mounted. The disadvantages 95 the space 18, the pressure of fuel in the namely the machining of the surface and the space being controlled by a relief valve 19 blades had led to the adoption of the more through which fuel can be returned to the fuel usual form of vane pump in which each vane supply tank 17. As shown in Figure 3, the is individually mounted in its slot with some inlet 15 to the low pressure pump 13 and the form of resilient means to bias the vane out- 100 outlet 20 are interconnected by a pressure re wardly into contact with the surface. lief valve 21 the action of which is to control The output pressure of the low pressure the output pressure of the low pressure pump pump is controlled by a relief valve so that in accordance with the speed at which the the pressure varies with the speed at which apparatus is driven. The high pressure pump the apparatus is driven. It is convenient to use 105 12 has outlets 22 for connection in known the pressure to assist in biasing the vanes manner to the injection nozzles of the associ outwardly into contact with the surface since ated engine and the flow of fuel to the high in this manner the biasing force rises as the pressure pump from the outlet 20 of the low pressure increases and there is no need to pressure pump is controlled by a throttling de provide a resilient means for biasing the vanes 110 vice 23.

of sufficient strength to cope with the maxi- The low pressure pump as shown in Figure mum pressure. It has been found however 2 is of the vane type and has a rotor 24 that the low resilient forces are not really adewhich is located in a pump chamber the in quate to allow efficient repriming of the appa- terior surface 25 of which is eccentrically dis ratus in the event that the fuel tank from 115 posed relative to the axis of rotation of the which the low pressure draws its fuel, has rotor. The rotor carries vanes 26 which are been allowed to run dry. The object of the slidable in slots in the rotor and which are present invention is provide an apparatus of lightly loaded outwardly by the action of the kind specified in a 'simple and convenient springs. Communicating with the chamber is form. 120 an. inlet port 27 which is connected to the According to the invention in an apparatus fuel inlet 15 and an outlet port 28 which is of the kind specified said low pressure pump connected to the pump outlet 20. The pump includes a rotor defining slots mounting the operates in known manner.

vanes respectively, resilient means biasing the In order to enhance the pumping action the vanes outwardly into engagement with an ec- 125 cavity 29 defined by the slots and the inner centrically disposed surface of a pump cham- ends of the vanes is connected to the outlet ber, and valve means operable to connect said 20 of the pump so that the inner ends of the space to a cavity formed at the inner ends of vanes are subject to the outlet pressure of the said slots until the output pressure of the low pump. This has the desirable effect of assist- pressure pump attains a predetermined value 130 - ing the action of the springs to bias the vanes 2 GB2193761A 2 outwardly and since this pressure varies in ac- pump including a rotor, slots defined in the cordance with the speed at which the appara- rotor and vanes located in the slots respec tus is driven, the force applied to the vanes tively, resilient means biasing the vanes out also varies with the speed and this materially wardly into engagement with an eccentrically assists in reducing the leakage between the 70 disposed surface of a pump chamber, and surface 25 and the outer tips of the vanes. valve means operable to connect said space With such an arrangement however it is to a cavity formed at the inner ends of said found that if the fuel tank is allowed to run slots until the output pressure of the low dry and then the tank replenished with fuel, a pressure pump attains a predetermined value substantial time lapses before the apparatus is 75 whereupon said valve means operates to ap able to supply fuel to the associated engine. It ply the output pressure of the low pressure has been found that this time can be substan- pump to the inner ends of said vanes.

Claims (6)

1. tially reduced if the cavity 29, defined at the
2. 2. An apparatus according

   to Claim 1 in inner ends of the vanes, is connected to the which said valve means compris6s a first non space 18 within the housing of the apparatus. 80 return valve which connects the outlet of the For this purpose valve means generally indi- low pressure pump to said cavity and a sec cated at 30 is provided the valve means in ond non-return valve which connects said cav the example of Figure 3, comprising a pair of ity to said space.

   non-return valves 31, 32 the valve 32 permit-
3. 3. An apparatus according to Claim 2 in ting the pressure from the outlet 20 of the 85 which said first non- return valve is a spring pump to be supplied to the cavity 29 and the loaded valve which opens to connect the out- valve 31 connecting the space 18 to the cav- let with said cavity at said predetermined ity 29. In the situation therefore where fuel pressure.

   run out has occurred or where for example a
4. 4. An apparatus according to Claim 2 or filter element has been changed thereby intro- 90 Claim 3 in which said second non-return valve ducing a substantial amount of air into the includes a free ball member and a seating, the - system, the cavity 29 is connected to the ball member dropping away from the seating space 18 within the housing of the apparatus to connect the cavity and space.

   and the fuel which flows into the cavity is
5. 5. An apparatus according to Claim 3 or thought to provide a sealing action to enhance 95 Claim 4 in which said first valve is constructed the pumping action of the pump until sufficient as a differential valve.

   output pressure has been developed to cause
6. 6. A fuel injection pumping apparatus for the valve 32 to open and consequent closure supplying fuel to an internal combustion en of the valve 3 1. gine comprising the combination and arrange- The valve 32 is lightly spring loaded 100 ment of parts substantially as hereinbefore de- whereas the valve 31 comprises a free ball scribed with reference to the accompanying member which drops away from its seating to drawings, allow fuel flow to the cavity 29. The passage which accommodates the ball is disposed in Published 1988 at The Patent Office, State House, 66/71 HighHolborn, London WC 1 R 4TP. Further copies may be obtained from use below the axis of rotation of the distribu- The Patent Office, Sales Branch, St Mary Cray, Orpington, Kent BR5 3RD.

   tor member so as not to hinder the flow of Printed by Burgess & Son (Abingdon) Ltd. Con. 1/87.

   fuel.

   The valve 32 may be a differential valve whereby it opens at a higher pressure than the pressure at which it subsequently closes, the closing pressure being below that which obtains at the minimum engine speed. Further more, the valve may in addition control the application of fuel pressure to pressure re sponsive devices forming part of the appara tus such for example as a timing control pis ton.

   CLAIMS 1. A fuel injection pumping apparatus for supplying fuel to an internal combustion en gine, the apparatus comprising a housing, a high pressure pump mounted in the housing, a space defined in the housing and in which a component of the high pressure pump is lo cated, said space in the use of the apparatus accumulating fuel, a low pressure pump of the rotary vane type for supplying fuel to the high pressure pump, a relief valve for controlling the pressure in said space, said low pressure