DE755104C - Fuel control device for injection piston internal combustion engines - Google Patents

Description

Fuel control device for injection piston internal combustion engines In the known fuel injection nozzles for internal combustion engines, the injection takes place d. H. the connection between the injection nozzle and a fuel line as a function of of valves, e.g. B. from a ball or cone valve. The disadvantages of these facilities consist in the fact that the valves usually do not seal sufficiently, so that fuel can drip, leading to a harmful prolongation of the combustion process leads. Therefore one already has a control element or one instead of the valve of the nozzle Upstream slide, which, in addition to sealing, also regulates the injection quantity takes over and after the injection has taken place the superfluous fuel again Pump back or leads to a secondary outlet. But even through this execution it was does not prevent the harmful prolongation of the combustion process due to dripping. The same type of injection nozzles are used to control the Fuel supply and discharge made through the face of a rotary valve this regulation is brought about by an oscillating movement of the slide. Apart from the fact that such designs due to insufficient time cross-sections for Machines that run quickly are completely unsuitable, this could result in dripping with its harmful side effects cannot be prevented.

These disadvantages become apparent in a fuel control device for internal combustion piston injection engines to the Installation between fuel pump and fuel injection nozzle, consisting of a in a cylindrical housing, in which the fuel supply line, the fuel nozzle line and the fuel discharge line open, sealingly mounted, spaced with two annular grooves (Inlet and outlet ring groove) provided rotary valve, according to the invention thereby avoided that the cylindrical rotary valve two substantially on its circumference has control slots extending in the axial direction, one of which is in conductive connection with the inlet ring groove, while the other with the Outlet ring groove is conductively connected, and that between the control slots an axial Web is arranged, the width of which is at least as large as the diameter of the Nozzle hole, and that the fuel nozzle hole is between the two annular grooves is located.

This results in a sudden and complete pressure relief of the nozzle brought about, whereby the harmful prolongation of the combustion process as a result Dripping of fuel is avoided.

In the drawing are two embodiments of the fuel injector shown according to the invention, for example.

In Fig. I there is a fuel injector on a cylinder i which is closed on one side g, a fuel feed 7 and a discharge line 8 used for pressure relief connected. In the cylinder i there is a rotary valve 2. This has two ring grooves 5 and 6 and two control slots 3 and .1., through a web i i are separated from each other. Some of the control slots have inclined control edges 12, 13 on. The control slot 3 is connected to the fuel supply via the annular groove 5 7 in connection, while the control slot .1. via the annular groove 6 to the pressure relief line 8 is connected. If the rotary valve 2 is driven, the control slot slide 3 and the control slot d. in quick succession at the nozzle opening 1o im Cylinder i over, d. H. the nozzle 9 is alternating with the fuel supply 7 and connected to the discharge line 8, whereby a pressure relief in the nozzle 9 is achieved. By lateral displacement of the rotary valve 2 in the cylinder i can, due to the inclination of the control edges 12, 13, a change in the injection quantity be made. The inclination of the control edges to each other is such that a large pressure relief follows a large injection quantity.

In Fig.2 there is a sleeve 19 closed on one side in one open cylinder 1a. The sleeve 1g is with annular grooves 1.4 and 15 and a hole 18 exposing the nozzle opening 1o and two lines 7a, 8a exposing bores 23. 24. provided. The rotary valve is located in the sleeve 19 2a. Instead of the control slots shown in Fig. I, it has U-shaped control slots Channels 16 and 17, the openings of which are located in the lateral surface of the rotary valve 2a. The U-shaped channels 16, 17 connect the nozzle 91 'depending on their position of the rotary valve 211 via the annular grooves 14 and 15 and via the bore 18 in the Bush 19 with the fuel supply 7a or the pressure relief line 8a. the The amount of fuel to be injected and the size of the pressure relief can be adjusted lengthways the sleeve 19 can be changed, because this results in the lines 7a, 8a more or less are covered by the sleeve 19.

The drive of the rotary valve 2, 2a can in the event that it does not rotating rotations, but rotating movements going back and forth, can also be done by an alternating electromagnetic field.

Claims (7)

PATENTA \ SPRi-CHE: i. Fuel control device for injection piston internal combustion engines for installation between fuel pump and fuel injection nozzle, consisting of a cylindrical housing in which the fuel supply line, the fuel nozzle line and the fuel discharge line open, and a sealingly mounted in this, im Distance with two annular grooves (measuring and outlet ring groove) provided rotary valve, the control slots extending essentially in the axial direction on its circumference has, characterized in that the one control slot (3) with the inlet ring groove (5) is in permanent open connection, while the other (q.) With the outlet ring groove (6) is permanently connected, and that the fuel nozzle bore (1o) is located between the two ring grooves (5. 6). 2. Fuel injector according to claim i, characterized. that one or both control edges (12) of the inlet control slot (3) converging as seen from the inlet ring groove (5) run obliquely to the axis. 3. Fuel injection device according to claim i or 2, characterized in that one or both control edges (13) of the outlet control slot (d.) Seen from the outlet ring groove (6) diverging obliquely to the axis -to run. .:1. Fuel injection device according to one of Claims i to 3, characterized in that that the rotary valve is continuously driven by the piston engine. 5. Fuel injection device according to one of claims i to 3, characterized in that that the rotary valve performs oscillating movements. 6. Fuel injection device according to claim 5, characterized in that the rotary slide valve (2a) is guided in a sleeve (ig) which is closed on one side and is arranged in an open cylinder (ia) and two U-shaped channels (i6, 1 7) , the openings of which are in the lateral surface of the rotary valve (2a), and the nozzle (ga) with the fuel or fuel nozzle (ga) via annular grooves (i4, 15) arranged in the bushing (ig), depending on the position of the rotary valve (2a) Connect the pressure relief line (7a or 8a). 7. Fuel injection device according to claims 5 and 6, characterized in that the injection quantity by longitudinal displacement of the sleeve (ig) and thus by fully or partially covering the bores (24, 23) with the orifices of the fuel supply or. -Duction "(7a or, 811) is controlled. B. Fuel injection device according to claims 5 to 7, characterized in that the rotary slide valve (2a) receives the oscillating rotary movement from the crankshaft. g. Fuel injection device according to claims 5 to 7, characterized in that characterized in that the oscillating rotary movement of the rotary valve (2a) is caused by an alternating electromagnetic field. To distinguish the subject matter of the invention from the prior art, the following documents have been considered in the granting procedure: German patent specifications No. 403 353, Soi 780; French patent specification No. 735 611; U.S. Patent No. 1,547,494.