DE694245C - Arrangement of the injection pumps of internal combustion engines - Google Patents

Description

Arrangement of the injection pumps of internal combustion engines The invention relates to the arrangement of the fuel pumps of internal combustion engines of the ordinary design with one piston per cylinder, especially high-speed ones Diesel engines, which are used both as a stationary power generator and as a power source find use for vehicles.

In the case of airless fuel injection into the working cylinders of Internal combustion engines are used in the connecting lines between fuel pipes and fuel injectors located under very high pressure, which; in particular in the case of long fuel pressure lines, the cause of malfunctions in the machine can. The liquid fuel is elastically compressible and therefore has if he is under the heights. Injection pressure stands, the desire to expand, as soon as this pressure drops again at the end of the delivery stroke of the fuel pump. The consequence of this is that the fuel injection into the working cylinder fails stops at the same time as the end of the pump piston delivery stroke, but only later, d. H. there is a post-injection of fuel into the cylinder. This post-injection of fuel leads, since under rapidly decreasing pressure, thus takes place with poor atomization, poor fuel efficiency and soot formation. For motors with a speed that can be varied within wide limits, the result is the order. long fuel pressure lines also have the disadvantage that the Crank angle, welher between the beginning of the fuel pump feed height and the achievement of an injection pressure that is high enough for good atomization is important, varies in size depending on the speed of the machine. So it can only be for one certain speed a certain sequence of the injection process can be set. Efforts are therefore made to keep the fuel pumps using the shortest possible pressure lines to connect with the injectors .. In this endeavor one ranks at quickly denominated diesel engines, the fuel pumps are known to be attached to the associated working cylinders or in their immediate vicinity. Also are sometimes used for the same purpose the fuel pumps are attached directly to the injectors, in such a way that both are together form a whole. While this version has the shortcoming that when replacing a nozzle, the fuel pump and usually even its drive shafts are also removed must be, show the first-mentioned arrangements of the fuel pumps on the Cylinders of the internal combustion engine have the disadvantage that the Bremlstoffpumpen and their Drive - and regulating elements considerably beyond those by the main parts the machine (cylinder and crankcase) protrude certain outline shape. This The disadvantage is particularly evident when the machine is a closed whole m a limited space to be installed, as is the case with vehicle engines, for example is the case, and if, about off. Reasons for easy cleaning: conservation, regular Shapes while avoiding the foregoing as much as possible, favoring dirt deposition Parts are to be aimed for. -By the present invention, these above are intended Disadvantages are avoided. According to the invention, the fuel pumps of internal combustion engines with injection fixed to the cylinders, spatially separated from one another and by a special one; removable fuel line connected fuel pump bodies and injector bodies arranged as follows: The pump body, designed as a body of revolution, is shown in the appropriately designed cavity of an eye provided on the cylinder is inserted, and this eye is arranged so that the pumps between those on the heads the working cylinder mounted pump drive shaft and the laterally arranged Injection nozzles are and that the delivery sides of the pumps are close to the associated Injectors and. the drive sides of the pumps are close to the drive shaft, so that on the one hand short and on the other hand the drive of the pump piston through the cams of the drive shaft either directly or via simple and short transmission links can be made.

On the accompanying drawing are five exemplary embodiments of the Subject of the invention shown. They show: Fig. R- and 2 in view and in section according to line II-II of Fig. i the head part of a working cylinder of a valveless (Two-stroke) diesel engine with a fuel pump arranged at an angle to the cylinder axis, Fig. 3 and q. in view and section along line IV-IV of Fig. 3, the head part of a Working cylinder of a valveless (two-stroke =) diesel engine with perpendicular to the cylinder axis arranged fuel pump, Fig. 5 and 6 in view and section along line VI-VI Fig. 5 shows the head parts of two cylinders of a two-stroke diesel engine with controlled. Measuring and exhaust valves and arranged at an angle and to the side of the cylinder axes Fuel pumps, Fig, 7 and 8 in section along the cylinder. along the line VII-VII of Fig. 8 and in plan the head part of a working cylinder of a two-stroke diesel engine with the valve directly driven by the camshaft and with the cylinder axis parallel fuel pump, Fig. 9 and io in section along the cylinder axis Line IX-IX of Fig. I o and in plan the head part of a cylinder of a four-stroke diesel engine with inlet and outlet valve arranged in the cylinder cover and arranged in between Fuel pump.

The parts that match in the various exemplary embodiments are numbered the same.

In the embodiment according to Fig. I and 2, the injection nozzle i in a known manner from the side into the upper delimiting the combustion chamber 3 Part of the working cylinder used, namely in a nozzle 2, the coolant room 4. penetrates between the cylinder inner wall 5 and the outer jacket 16. The cylinder head carries just above the nozzle connection z a pierced approach 7, whose. drilling the cylinder body 8 of the fuel pump receives, in such a way that this pump between the pump drive shaft 14 mounted on the cylinder head and the nozzle i. The pressure line connection 12 of the pump body 8 is close to the pressure line connection 13 of the injection nozzle i, so that the fuel pressure line g is very short. the The drive side of the fuel pump is close to the pump drive shaft 14, so that the fuel pump by means of the simple and short Z` "ischenhebels 16 of the shaft 14 carrying the drive cams 15 can be driven. Both the The fuel pump 8 as well as the nozzle i can each comfortably and without hindrance can be removed by other engine components. To fix the pump housing 8 in the bore of the projection 7, as can be seen from Fig. 2; .the connection piece i o is also used for the fuel supply line i i, in that this connection piece io is screwed so deep into the wall of the cylinder head extension 7,. that he still in the pump body 8, engages. The fuel pump is essentially inside the outline of the machine determined by the cylinder or cylinder head, and so that its axis finite that of the associated working cylinder in one plane and cuts it at an acute angle. The rotatable pump piston 17 carries on an extension 18 a lever i g on which a linkage (not shown) attacks that when it is adjusted, which is done by hand or by a controller can, the pump piston provided with control edges 2o, 21 for the beginning and end of the delivery 17 pivoted and so in a known manner the respective delivery rate adjusts. But it can. Other types of flow rate regulation also succeeded Find.

Figures 3 and 4 show an arrangement of the fuel pump on the cylinder head ' einer.ventillos internal combustion engine, in which the pump axis is perpendicular to the The cylinder axis lies and at which the pump piston 17 is located directly through the cam 15 of the drive shell 14 is moved.

In Figs. 5 and 6 the arrangement of the fuel pumps is at one Single-piston two-stroke diesel engine with controlled, centrally located in the cylinder heads Inlet or outlet valves shown. The working cylinders of the engine are in accordance with Fig: 5 combined into a block; in which cavities 4 for the flow of a Coolant are provided. In the middle of the end wall closing off the combustion chamber 3 each working cylinder sits a valve 27. These valves 27 are of the same Camshaft 14, which also drives the fuel pump 8, by means of the Noc'ker -25 and the lifting 122 is actuated. The individual fuel pumps are here because of the valves 27 arranged to the side of the cylinder axes. So their axes cross with each other the cylinder axes at a distance. The axis of each arranged between two cylinders According to Fig. 5, the fuel pump is located in the middle between these two cylinders and perpendicular to the crankshaft plane. Here too, the fuel pumps similar to the designs according to Fig, i to 4, such a position that its conveying sides üahe the connections 13 of the injection nozzles r lie so that @ the fuel pressure lines 9 are short and that their drive side is close to the drive shaft 14, the dib drives the pump by means of the cam 15 via the lever 16.

Figures 7 and 8 show in section along the cylinder axis and in plan the head part of a working cylinder of a two-stroke diesel engine, which, as in the example according to Fig.5 and 6, has a centrally arranged inlet or outlet valve27. The valve 27 is, however, driven directly by the cam 25 of the shaft 14. The fuel pump "8 is here .m a bore parallel to the working cylinder axis of the cylinder head extension 7 housed and is of the camshaft 14 by means of the cam 15 is driven via the intermediate lever 16. The cylinder head extension 7 is so arranged that the fuel pump fixed in its cavity .maximum with a part of its thickness protrudes over the outline of the cylinder.

Fig. 9 and io show the arrangement of a fuel pump on the head part of the cylinder bank of a multi-cylinder four-stroke diesel engine with inlet valve 28 and outlet valve 29 arranged in the cylinder cover Levers 33, 34; The fuel pump piston 17 is driven from the same Wall 14 by means of the cam 15 via the lever 16.

In most of the exemplary embodiments, the drive and control parts are located 1 4th to i 9 of the fuel pumps within a one part of the cylinder head forming housing 30, which can be closed by a cover 35 and which in the embodiments according to. Fig. 5, 6 and 9, i o (with controlled valves) , at the same time as the housing serves:

Claims (6)

ACTION CLAIM i. Arrangement of the fuel pumps of internal combustion engines with fuel pump bodies and injection nozzle bodies fixed to the cylinders, spatially separated from one another and connected by a special, removable fuel line, characterized in that the as. Rotary body formed pump body (8) is inserted into the correspondingly shaped cavity of an eye (7) provided on the cylinder, and that this eye is arranged in such a way that the pumps are between those on the heads of the working cylinders. bearing pump drive shaft (14) and the laterally arranged injection nozzles (i) and that the delivery sides of the pumps na11e at the associated injection nozzles (i) and the drive sides of the pumps are close to the drive shaft (14), so that. short fuel pressure lines (9) and on the other hand the drive of the pump piston (17) by the cams (15) of the drive shaft (1 4) can be done either directly or via .simple and short transmission members (16). 2. Arrangement of the fuel pumps of single-piston injection internal combustion engines according to claim i, characterized in that that the eye (7) provided for receiving the pump body on the cylinder head. 3. Fuel pump arrangement for piston injection, racing machines with im Head part of the cylinder arranged valves and with a common drive shaft for Valves and fuel pump according to claim i or 2, characterized in that d, aß the fuel pump (8) receiving eye (7) on the cylinder cover so arranged is that the axis of its cavity parallel to the working cylinder axis and that it is at most a part of its thickness over the contour shape of the cylinder protrudes (Figures 7 and 8). ¢. Fuel pump arrangement according to one of claims i up to 3 for multi-cylinder Einko: oil injection fuel engines, characterized by that each one fuel pump (8) aufnahmexiden eyes (7) between two adjacent Working cylinders are in such a way that the axis of the fuel pump in the Middle between these working cylinders and perpendicular to the crankshaft extending Level (Figs. 5, 6, 7 and 8). - 5. Fuel pump arrangement according to one of the claims i to q., characterized in that the one connected to the fuel supply line (i i), guided through the wall of the eye (7) receiving the pump body (8) Connection piece (io) .of the fuel pump to hold the pump body in place (8) is used in the eye (7). 6. Fuel pump arrangement according to one of the Claims i to 5 for internal combustion engines with valve control enclosed by a housing, characterized in that one end of the eye receiving the pump body (8) (7) in. The housing (3o) enclosing the valve control lies in such a way that the Drive and control parts (14 to i g) of the pump inserted into the eye in the same housing.