DE3029497A1 - FUEL PUMP - Google Patents

Description

02949?

DESCRIPTION

The invention relates to a fuel pump with a A fuel injection pump housed in a body and a fuel injection nozzle fixed in the body. One Device of this type is referred to below as a pump injector.

In particular, the invention relates to a pump injector having an elongated body extending into one end face thereof blind bore extending into the body and a plunger slidably mounted in the bore.

It is known that in such a device the pump has a cylindrical part which defines a bore, in which a plunger is attached. The injection nozzle is of conventional shape and includes an inwardly opening, a valve element biased into the closed position by spring bias. The spring is housed in a chamber, which is connected to a fuel channel for leading away the leak fuel from the nozzle into the chamber. The spring chamber is formed in a tubular part disposed between the cylindrical part and the nozzle, and the tubular part has a closure for closing the end of the bore in the cylindrical part. In the wall of the cylindrical Partly a line or bushing is formed and connects the bore with the fuel supply line of the Jet. The different parts are secured by a union nut, which engages a flange of the nozzle, held together in the intended arrangement. The nut is about a screw thread connected to a body part of the pump injector in which the aforesaid cylindrical part is built.

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The screw connection must be sufficiently strong to achieve a fuel-tight seal between the end cap and the cylindrical part despite the force exerted by the fuel pressure acts in the bore on the end cap. In addition, there is a need around the aforementioned lines ensure a liquid-tight seal. The practice with modern machines is an increase in the pressure achieved during the addition of fuel, with the result that the resultant developing therefrom and being kept from the screw connection Strength increases. In addition, machine manufacturers require that the diameters of the parts be reduced or as small as possible being held. As a result, it is considered that the screw connection between the union nut and the pump body is no longer adequate is.

The object of the invention is to design a pump injector in a simple and expedient manner.

This object is achieved by a fuel pump of the type described at the outset, which is characterized according to the invention is through a chamber extending into the body from the other end of the body, one with the blind end of the bore communicating, extending between the wall of the chamber and the outer wall of the body and to the other end face of the body open outlet port, an injector body fixed relative to the body, the one connected to the outlet conduit Has fuel line and which carries a valve element controllable by the fuel pressure and an arranged in the chamber, resilient device operatively connected to the valve element, which moves the valve element into a closed position presses.

Further features and usefulnesses of the invention emerge from the description of exemplary embodiments of a pump injector based on the figures. From the figures show:

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Fig. 1 is a side view, partly in section, a pump injector; and

FIG. 2 shows a pump injector modified from FIG. 1.

As shown in the figures, the pump injector comprises an elongated, generally cylindrical body 10 and one extending from one End face into the body extending cylindrical bore 11. In the bore 11 is a plunger 12 is attached through the Effect of a cam body and a return spring can be moved back and forth. It is an open to the bore 11, from the plunger 12 concealable outer opening 13 is provided, which extends to outer edge of the body 10 opens.

A chamber 15 extends from the other end face 14 in FIG the body. The chamber 15 is with the exterior of the body 10 connected by a line 16 shown in dashed lines.

Also shown is a fuel injector, indicated generally at 17 is designated. The nozzle is of conventional design and of the inward opening type. The nozzle body 18 has a tiered structure, and there is a in the body sliding valve element 19. The valve element is actuated by a helical compression spring 20 in Contact pressed with a seat defined in the nozzle body. The helical compression spring contacts the nozzle body nearer end a spring abutment 21, which of a reduced Area 22 of the valve element 19 is worn.

The reduced area of the valve element extends through an opening formed in the end plate 23, the End plate between the nozzle body 18 and the end surface 14 is held.

The nozzle body is in sealing engagement with the end plate 23 and this is held in sealing engagement with the surface 14 by means of a union nut 25. The union nut

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25 has a central opening in its bottom wall through which the narrower part of the nozzle body extends. The inner one The surface of the union nut is provided with a screw thread for engagement with a complementary thread on the body 10. The union nut, however, has a projection or an extension 26, of which a part of the body 10 is spaced apart to form an annular space into which the line 16 extends.

The closed end of the bore 11 is in communication with an outlet conduit 27 extending axially into the body 10 between its outer surface and the wall of the chamber 15. the Line 27 opens on end face 14 and is in communication with a bore formed in the end plate 23. This in turn is in connection with one formed in the nozzle body Fuel line 28.

When the plunger 12 is in operation, as shown in Figure 1, moved downwards, fuel flows through the opening 13 from the area of the bore determined under the plunger, until the opening 13 is covered by the plunger 12. After that, the fuel moved by the plunger flows through lines 27 and 28, and the fuel pressure throws: on that Valve element 19 to move it against the spring pressure. When the valve element is lifted from its seat, fuel flows through the outlet openings indicated by 29 at the narrower end of the nozzle body.

The amount of fuel flowing through the openings 29 can be known in a known manner Art can be controlled or regulated, e.g. by a helical groove formed on the plunger, which during the inward movement of the plunger with the opening 13 or a similar opening is associated. The angular

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The position of the plunger regulates the flow through the openings 29 flowing amount of fuel.

It is intended that the pump injector be mounted in the bore of a cylinder head of an engine, the bore determines the fuel supply route. For this purpose, the extension 26 of the union nut or the body 10 can be a resilient one Wear sealing element. If the body 10 carries the sealing element, this is on the one facing away from the opening 13 of the nozzle Side arranged.

In Figure 2, the body 10, as in the example of Figure 1, the bore 11 and the chamber 15. In addition, the extends Outlet line 27, as in Figure 1, between the wall of the chamber 15 and the outer wall of the body 10. The line 27 is closed with the The end of the bore is connected by an inclined bore 31 suitably formed at the same time as the opening 30 will. In FIG. 2 it is shown that the opening 30 is also inclined, which enables the bore 31 to be formed.

The apparatus of the type described is capable of handling fuel at a pressure of at least 12,000 lbs / sq.ins. (844.44 kg / cm ² ). The only surfaces to which seals must be applied are those between the body 10 and the end plate 23 and between the end plate and the nozzle body around the conduits. Since the area around the lines is small, only moderate clamping pressure is required.

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L e "r s e

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Claims (3)

PATENT ADVOCATE DIPL.-PHYS. LUTZ H. PRÜFER · D-8OOO MUNICH 9O MB 24-1638 P / F / be Lucas Industries Limited, Birmingham, Great Britain Fuel pump PATENT CLAIMS 1.; Fuel pump with an elongated body, a self its bore extending into the body at one end surface and a plunger slidably mounted in the bore, characterized by a chamber (15) extending into the body from the other end of the body, one with the blind End of the bore (11) communicating, extending between the wall of the chamber (15) and the outer wall of the body (10) and the outlet opening (27) open to the other end face (14) of the body, an injection nozzle body fixed with respect to the body (10) (18), which has a fuel line (28) connected to the outlet line (27) and the one through the Fuel pressure controllable valve element (19) carries and a arranged in the chamber (15), effective with the valve element (19) connected resilient device (20) which presses the valve element (19) into a closed position. PATENT ADVOCATE DIPL.-PHYS. LUTZ H. PRÜFER ■ D-8OOO MUNICH 9O. WILLROIDERSTR. 8 · TEL. (089) 640640 130017/0517 302949? 2. Fuel pump according to claim 1, characterized by a end plate (23) arranged between the nozzle body (18) and the other end face (14) of the elongated body (10) and a bore (11) in the end plate (23) through which the outlet line (27) and the fuel line (28) connect stay in contact. 3. Fuel pump according to claim 1 or 2, characterized by one formed in the wall of the bore (11) and on the downward movement of the plunger (12) to the blind end of the bore (11) concealed opening (30) inclined with respect to the axis the bore (11) is arranged and with the initial part of the from the bore line is aligned in a line. 130017 / 0S17