DE3313313C2 - Reciprocating internal combustion engine with a device for adjusting the injection timing - Google Patents

Abstract

In the case of a reciprocating internal combustion engine, the injection valves of which are supplied with fuel by individually arranged injection pumps, the pump pistons can be controlled by a camshaft via roller tappets with a rocker arm in each case. The rocker arms are rotatably mounted on an eccentric shaft and can be adjusted relative to the fuel control cams of the camshaft by rotating the same to adjust the injection time. The eccentric shaft is composed of individual, detachably connected parts.

Description

a) each on the one hand with an upper pressure surface with the role of a roller tappet and on the other hand with a control roller rotatably mounted on them with the control contour of a fuel control cam are in working contact,

b) are rotatably mounted on an eccentric shaft, and

c) by rotating the eccentric shaft with its control rollers relative to the fuel control cams are adjustable for adjusting the injection timing,

a) Bearing sections (14), each in stationary, but releasable bearing blocks (16) are mounted, and

b) eccentric parts (15), each of which is an assembly with one carried in it The rocker arm (6) forms and is eccentric with respect to the two adjacent, axially to one another aligned bearing part pieces (14) is arranged,

that the eccentric sections (15) and bearing sections (14) each to the intended for connection In the assembled state, ends have flats (20, 21) resting on one another, in the area of the latter fixed in an axial position relative to one another and non-positively by means of positively interlocking means are clamped together by appropriate means, and that as many parts of the eccentric shaft as possible (13) and their storage, but at least those assemblies, each consisting of an eccentric part (15) and a rocker arm (6), are mutually identical and interchangeable.

2. Reciprocating internal combustion engine according to claim 1, characterized in that the distance (x) of the flats (20,21) from the axis (27) of the bearing sections (14) or (26) of the eccentric sections (15) is each equal and so large that half of the eccentric stroke "y" is in the assembled state with

10

wherein the eccentric shaft is assigned an adjusting device with which it can be rotated if necessary and can be locked in the respective setting position, characterized in that

that the eccentric shaft (13) is composed of individual, detachably interconnected sections is, namely off

results.

3. Reciprocating internal combustion engine according to claim 1, characterized in that the bearing sections (14) and the eccentric parts (15) are identical and interchangeable, and that in addition, the bearing blocks (16) are all designed identically and are interchangeable with one another.

4. Reciprocating internal combustion engine according to claim 1, characterized in that the eccentric parts (15) and the bearing sections (14) outside of the flats (20, 21) have a circular cylindrical shape and same diameter and in the area of the flats (20, 21) arranged perpendicular thereto through Have transverse bores (22, 23) that are inserted or passed through together with Dowel bolts or screw shafts are provided for a form-fitting or force-fitting connection are.

5. Reciprocating internal combustion engine according to claim 1, characterized in that on each one bearing section (14) of the eccentric shaft (13) two rocker arms can be rotatably mounted, each with one control roller arranged thereon to an associated inlet or outlet control cam of one of the eccentric shafts (13) parallel camshafts are articulated and directly or via a bumper with a Rocker arms for controlling the inlet or outlet valve are in operative connection, the two Rocker arm and the bearing part (14) carrying it, and possibly also the two for storage of the latter necessary bearing blocks (16) form a preassembled assembly, which with the relevant is identical to other assemblies and these are therefore interchangeable with one another.

The invention relates to a reciprocating internal combustion engine with features corresponding to the preamble of claim 1.

Such a reciprocating internal combustion engine is known from DE-PS 6 26 666. Similar solutions that also enable the injection timing to be adjusted using an eccentrically mounted rocker arm, are also known from DE-PS 4 67 443 and DE-OS 29 03 875. About the structural design the device that enables the injection timing to be adjusted, in particular prior publications neither presented nor stated in detail.

In addition, from CH-PS 1 43 473, GBPS IO 72 503, US-PS 19 96 807 and DE-PS 3 90 818 reciprocating internal combustion engines are known in which the control of the inlet and outlet valves via Kipphebei and possibly push rods of rocker arms takes place, which are each mounted next to the camshaft and articulated with a control roller on an associated inlet or outlet control cam of a camshaft.
The object of the invention is to design a reciprocating internal combustion engine of the generic type in each sub-area with which an injection timing adjustment is to be achieved in such a way that the following is ensured, namely

- a simple and economical production of the eccentric shaft,

- a simple storage of each rocker arm, and

- Simple assembly and disassembly of each individual rocker arm including storage.

65 In a reciprocating internal combustion engine of the type mentioned at the outset, this object is achieved according to the invention by the features indicated in the characterizing part of claim 1.

features solved. Advantageous refinements and developments of this solution are set out in the subclaims marked

The solution according to the invention provides a number of advantages, which are seen in particular on the part of the manufacturing costs and the ease of maintenance have a positive effect. Because the individual eccentric parts the eccentric shaft, each of which carries a rocker arm, and preferably also at least those bearing sections of the eccentric shaft, which are arranged between two eccentric sections, are identical to one another and are interchangeable with each other, is not just a simple assembly, but also, for example, in one In the event of damage or when a wear limit is reached, the relevant eccentric shaft section is quickly replaced guaranteed; the latter without interfering with the position and arrangement of those neighboring, Eccentric shaft sections each assigned to a different injection pump. The relatively short and thus Even relatively compact eccentric shaft pieces are on simple machine tools and devices to be made to measure; these are relatively short eccentric shaft sections in comparison with the assembled eccentric shaft can also be used in spare parts stores and, in particular, in internal combustion engines well stocked as spare parts on ships or in power stations in confined spaces. The solvability the eccentric sections of the remaining eccentric shaft sections made possible in an advantageous manner a one-piece design of the rocker arm mounting.

The solution according to the invention is explained in more detail below with reference to the drawing.

In this shows

F i g. 1 is a somewhat schematic diagram for the sake of clarity and is attached to a reciprocating internal combustion engine Injection pump in each sub-area encompassing the invention,

F i g. 2 in perspective and somewhat schematically an embodiment of an eccentric shaft according to the invention, shown without the rocker arm sitting on it,

F i g. 3 shows a section through the eccentric shaft according to FIG. 2 along the section line III-II1.

F i g. 4 an eccentric shaft section with a pivot lever.

In Fig. 1, 1 is a control housing of a further multi-cylinder reciprocating internal combustion engine, not shown, in its interior a camshaft 2 is arranged, which with its cams the work of injection pumps and gas exchange valves, possibly also other functional elements, e.g. B. for a compressed air starting or reversing controls. The injection pumps, one of which in FIG. 1 shown in part and indicated at 3 are along the machine - one per cylinder - arranged. Each of the existing injection pumps 3 supplies one to it via one Line connected injection valve and thus the associated cylinder with the one required for the combustion Fuel. The pump pistons 4 of the injection pumps 3 are each connected by a total of 5 designated roller tappet with the interposition of a total of 6 designated rocker arm of the camshaft 1 from controllable. Each rocker arm 6 is in each case with an upper pressure surface 7 the roller 8 of the associated roller tappet 5 and with a control roller 9 rotatably mounted on it with the Control contour 10 of a fuel control cam 11 arranged on camshaft 2 in working contact. The control roller 9 is arranged at one end of a rocker arm 6 and on a shaft or Axis 12 rotatably mounted. Each rocker arm 6 is at the end area opposite the control roller 9 a total of 13 designated eccentric shaft rotatably mounted, which is also along the machine The rocker arm 6 and the eccentric shaft 13 are part of a device with which an adjustment of the The point of injection can be carried out, the rocker arm 6 by rotating the eccentric shaft Ϊ3 with their control rollers 9 relative to the fuel control cams ti are adjustable. For this purpose, the eccentric shaft 13 is assigned an adjusting device, with which it can be rotated if necessary and locked in the respective setting position. Said adjusting device is defined in more detail below.

According to the invention, the eccentric shaft 13, as shown in FIG. 2 can be seen from individual, detachable with one another connected parts, namely bearing parts 14 and eccentric parts 15, assembled. The eccentric shaft 13 is each in the area of their bearing parts 14 by two each one-piece, d. H. undivided Bearing blocks 16 stored, each of which is stationary on the machine, but detachable by means of through bores penetrating screws 17 engaging in the frame side thread is attached. From the storage blocks 16 is shown in FIG. 2 for the sake of clarity, only one is shown in full; the others are partial broken off and shown partially cut open. Each of the eccentric parts 15 carries - as well from Fig. 4 can be seen - a rocker arm 6 and together with this forms an exchangeable assembly. The eccentric sections 15 are, as can be seen from FIGS. 2 and 3 can be seen, eccentrically with respect to the respective two adjacent, axially aligned bearing sections 14 are arranged. According to a The criterion of the invention are as many parts as possible of the eccentric shaft 13 and their bearings, at least However, the assemblies each formed from an eccentric part 15 and a rocker arm 6 - as in F i g. 4 - the same and interchangeable with one another. Advantageously, however, are also the two bearing sections 14 seated at the ends of the eccentric shaft 13 among one another equal and interchangeable. The same applies to the remaining parts of the bearing 14, d. H. also the bearing sections 14 arranged between two eccentric sections 15 of the eccentric shaft 13 are the same and interchangeable with one another. The two at the ends of the eccentric shaft 13

Bearing sections 14 seated in this way do not necessarily have to have a shape that differs from the rest, that is, all bearing sections 14 of the eccentric shaft 13 can be of the same design and can be interchangeable with one another. In a particularly advantageous manner, both the bearing sections 14 and the eccentric sections 15 of the eccentric shaft 13 are mutually identical and interchangeable. Preferably, the bearing blocks 16 are all designed identically and are interchangeable with one another. Two such bearing blocks 16 and a bearing section 14 of the eccentric shaft 13 also form an interchangeable assembly. To an internal combustion engine, in which the control of the intake and exhaust valves via rocker arms and possibly bumpers of rocking levers of the respect ^ve: s ^l next to the camshaft bearings and are coupled to a control roller to a respective inlet and Auslaßsteuernocke the camshaft, it is advantageously possible to use two of the aforementioned

Rocker arm, namely one for intake and one for exhaust valve control on a bearing section 14 of the Eccentric shaft 13 to be arranged rotatably mounted. Preferably each form a rocker arm for intake and one for exhaust valve control as well as a bearing part 14 of the eccentric shaft 13 carrying it, a preassembled Assembly, which assemblies are in turn the same and interchangeable with one another are.

The one-piece bearing blocks 16 have a transverse direction for a bearing section 14 to pass through continuous bearing bore 18 into which a bearing bush is inserted if necessary. Also each undivided Rocker arm 6 has a transversely continuous bearing bore for the passage of an eccentric part 15 19, in which a bearing bushing may also be inserted.

All eccentric sections 15 of the eccentric shaft 13 have a circular cylindrical shape and the same diameter on. In the same way, all of the bearing sections 14 of the eccentric shaft also have a circular cylindrical shape Shape and same diameter. The eccentric sections 15 and bearing sections 14 have on their end faces the eccentric shaft 13 provisions for a form fit or a form and force fit with the respective to be coupled eccentric shaft section. In the drawing is an embodiment for such Form and force fit shown. At the front ends of the eccentric sections 15 are axially parallel Flats 20 and at the front ends of the bearing sections 14 axially parallel flats 21 provided; In addition, these are in the eccentric parts 15 and bearing parts 14 in the area of Flattened areas 20 or 21 standing perpendicular thereto, penetrating, mutually aligned transverse bores 22, 23 provided for the passage of fitting screws 24 for their connection. It is included in the assembled state an eccentric part 15 with its respective flat 20 on the associated flat 21 of a bearing part 14 resting on it and seated thereon by means of a fitting screw 24 on the thread of the associated fitting screw Nut 25 tightened.

The distance between the flattened areas 20 and 21 on the eccentric sections 15 or bearing sections 14 of the eccentric shaft 13 is always the same and preferably corresponds to half the eccentric stroke Λ. These dimensional relationships are good from FIG. 3, the dimension "x" between arrows indicates the distance between a flat 20 from the axis 26 of an eccentric section 15 or a flat 21 from the axis 27 of a bearing section 14. The dimension "y" between arrows gives half the eccentric stroke with »2 x« according to the above definitions.

As mentioned briefly at the beginning of the description, the eccentric shaft 13 is assigned an adjusting device, With which it can be rotated to adjust the injection timing and in the respective setting position if required can be locked An adjustment or readjustment of the given injection time can be be necessary when the quality of the fuel to be burned changes; it can also be an adjustment the injection time to the speed, the load, or other parameters that change depending on the operation the internal combustion engine to prove useful, possibly even necessary. The adjusting device includes one arranged at a suitable point on the eccentric shaft 13, shown in FIG. 2 only indicated schematically Lever 28 which, depending on the application, can either be actuated by hand or for automatic actuation is connected to an electric or hydraulic servomotor. In the event of manual operation of the lever 28 would still have to be provided separate clamping devices that lock the Ensure eccentric shaft 13 is in the respective setting position. In the event of an automatic adjustment the eccentric shaft 13 is locked in the respective setting position via the lever 28 connected servomotor ensured. For a particularly sensitive and quick readjustment of the injection timing said servomotor can be switched on in a control circuit that has a microprocessor includes, which in turn by program on the basis of continuously transmitted actual values of changing Operating parameters of the internal combustion engine works.

For this purpose 2 sheets of drawings

Claims (1)

Patent claims: 1. Reciprocating internal combustion engine, the injection valves of which are individually arranged injection pumps are supplied with fuel, the pump pistons of which are connected via roller tappets each rocker arm can be controlled from a camshaft, which rocker arm