FR2544386A1 - IC engine injection pump drive - Google Patents

Abstract

The piston engine has cylinders with individual fuel injection pumps of which the pistons are reciprocated via roller tappets. Each are actuated by a rocker lever, with a roller at one end in contact with a cam contour. Its other end is rotatable on a portion (15) of an eccentric shaft (15). This shaft is rotatably adjustable to vary injection timing and consists of releasably connected portions (14,15), i.e. portions (14) each carried (18) in one-piece bearings (16). These are releasably secured to the engine block and eccentric portions (15) each carrying a rocker lever. The respective portions (14,15) or at least the sub-assemblies of portions (15) with rocker levers, are identical and interchangeable.

Description

The present invention relates to an internal combustion engine with reciprocating pistons, whose injection valves are supplied with fuel by individually arranged injection pumps and whose pumping pistons can be controlled from a camshaft by means of intermediate roller pushers with respective interposition of an oscillating lever, said oscillating levers a) being each in working contact on the one hand by a
upper pressure surface with the roller of a pusher
with roller and secondly by means of a roller control
who is mounted on them rotating with the outline of
control of a fuel dispensing cam, b) being rotatably mounted on an eccentric shaft, and c) being displaceable by rotation of the eccentric shaft 11 to
by means of their control rollers with respect to the cams
fuel dispensing for point adjustment
injection, the eccentric shaft being associated with an actuating device by means of which this shaft can be rotated
o if necessary and can be stopped in a corresponding setting position.

 An internal combustion engine with reciprocating pistons of this type is known from patent DE-626 666.

Analogous solutions, which also allow adjustment of the injection point via an eccentrically mounted oscillating lever, are further known from German Patent DE-467,443 and the German patent application.
DE-OS 2 903 875. However, no mention is made in the aforementioned documents as regards the constructional arrangement of the device which allows adjustment of the injection point, in particular the eccentric shaft.

The object of the invention is to arrange an internal combustion engine with reciprocating pistons of the type defined above so that, in any partial area where the injection point must be adjusted, it must be ensured that the following results, namely - a simple and economical manufacture of the eccentric tree
that, - a single bearing for each oscillating lever, and - a simple assembly and disassembly of each oscillator lever
individual, including his landing.

This problem is solved, for an internal combustion engine and with reciprocating pistons of the type defined above, according to the invention in that the eccentric shaft is composed of different parts connected to one another in a separable manner, namely a) parts which are respectively mounted in
bearing bodies placed in fixed positions but
however, removable, and b) parts of eccentric each of which constitutes a set
construction with a swing lever carried by
she and that is arranged eccentrically with respect to
two adjacent bearing parts and placed axially in
relative coincidence, and in that a number as large as possible of parts of the eccentric shaft and its bearing, and at least, however, each set of construction respectively consisting of an eccentric portion and an oscillating lever , are identical to each other and mutually interchangeable.

According to other features of the invention 1) Also the two bearing parts placed at the
ends of the eccentric shaft, are identical between
they are mutually interchangeable.

2) Also the bearing parts that are arranged between
two eccentric parts of the eccentric shaft are
identical to each other and mutually interchanging
geable.

3) Also all bearing parts of the eccentric shaft
that are identical to each other and mutually inter
changeable.

4) Both the bearing parts and also the parts
eccentric eccentric shaft are identical between
they and mutually interchangeable.

5) Also the bearing housings are all identical
between them and are mutually interchangeable 6) Respectively two bearing bodies and one part of
bearing of the eccentric shaft supporting them constitute
a construction kit if necessary prefabricated.

7> Building sets - each consisting of one
bearing part of the eccentric shaft and two bodies
mounted on them - are identical to each other and
mutually interchangeable 8). In the case of a piston internal combustion engine
alternatives of the type defined above, in which the
control of the intake and exhaust valves is
performed through rocker arms and the case
appropriate thrust rods of oscillating levers; which are
each climbed to catte of the camshaft and which are each
supported by means of a control roller on a cam
associated intake control or exhaust shaft
with cams, among the oscillating levers mentioned above;
each time two levers, including one for the command
intake valve and one for the valve control
exhaust, are rotatably mounted on a part of
bearing of the eccentric shaft.

9) Respectively a swing lever for the control of
intake valve and a swing lever for the control
exhaust valve and a bearing portion,
supporting them, eccentric shaft form a whole
of prefabricated construction, said building sets
being mutually identical and mutually interchanging
geable.

10) The eccentric parts of the eccentric shaft have united
circular cylindrical shape and all have the same diameter 11) The bearing parts of the eccentric shaft have a
circular cylindrical shape and have all the same me diamè
be.

12) The eccentric parts and the bearing parts of
the eccentric shaft have on the front sides
means for a connection by conjugation of forms with
the eccentric shaft part respectively to accou
PLER.

13) The eccentric parts and the bearing parts of
the eccentric shaft have on the front sides
means for establishing a connection by conjugation of
shapes and forces with the eccentric shaft part
respectively to mate.

14) The eccentric parts and the bearing parts of
the eccentric tree include in the area their
ends of the transverse holes allowing the passage
mechanical screws to ensure their connection.

15) On the front ends of the eccentric parts
and bearing parts of the eccentric shaft he
there are provided flats parallel to the axis and holes
perpendicular transverse crossing these
for the passage of mechanical screws, in which case in the
condition mounted an eccentric part comes to apply
by its flat against a corresponding landing portion
and is pressed against it by means of a screwed nut
on the thread of the mounted mechanical screw.

16) The spacing between the flats and the axis of the parts of
bearing or eccentric parts is respectively
equal and big enough to get in the condi
mounted the eccentric half-stroke '0y' with
hy = 2 = 2x
The solution according to the invention provides a series of advantages, which have an influence in particular on manufacturing costs and ease of maintenance. Because the different eccentric parts of the eccentric shaft, which each carry an oscillating lever, and advantageously also at least the bearing parts of the eccentric shaft which are arranged between two eccentric parts, are identical to each other and are mutually interchangeable. not only a simplified assembly is obtained but for example in case of failure or when the wear limit is reached, it is ensured a rapid replacement of the corresponding part of the eccentric shaft; furthermore this operation can be carried out without intervening on the positioning and the arrangement of an adjacent eccentric shaft part which is associated with another injection pump. The parts of the eccentric shaft which are relatively short and consequently also relatively compact can be manufactured accurately on machine tools and simple devices these relatively short eccentric shaft parts compared to the fully assembled eccentric shaft can further be held in stock in the form of spare parts in a This is particularly advantageous for ships engines or in thermal power plants. The possibility of separating the eccentric parts from the other parts of an eccentric shaft advantageously allows a one-piece construction of the oscillating lever bearing.
Other features and advantages of the invention will be demonstrated in the remainder of the description, given by way of non-limiting example, with reference to the accompanying drawings in which FIG. 1 represents an injection pump, shown in FIG. together in a somewhat diagrammatic manner and installed on an internal combustion engine with reciprocating pistons, the figure showing the partial zone relating to the invention, FIG. 2 is a perspective view and a little schematic an embodiment of the invention. an eccentric shaft according to the invention, shown without the oscillating levers mounted on it, Figure 3 is a section of the eccentric shaft of Figure 2 taken along the section line III-III, Figure 4 shows a part of eccentric shaft provided with an oscillating lever.

 In Figure 1, there is designated by 1 a distribution casing of a reciprocating piston engine and several cylinders not shown in detail and in the interior of which is disposed a camshaft 2, which controls by its cams the operation injection pumps and distribution valves, if necessary also other functional elements, for example for start or reversing control by means of compressed air. Injection pumps, one of which is shown partially in FIG. 1 and is designated 3, are distributed along the engine - at a rate of one per cylinder. Each of the existing injection pumps 3 feeds an injection valve connected thereto via a pipe and therefore the associated fuel cylinder necessary for combustion. The pistons 4 of the injection pumps 3 can each be controlled from the camshaft 2 by means of a roller pusher generally designated by 5, with the interposition of an oscillating lever generally designated by 6. Each oscillating lever 6 is then in contact with working respectively by an upper pressure surface 7 with the roller 8 of the associated pusher 5 and by a control roller 9 which is rotatably mounted on it with the control contour 10 of a fuel distribution cam 11 disposed on the camshaft 2. The control roller 9 is then placed on an end zone of the rocking lever 6 and is rotatably mounted on an axis or a pivot 12. In the end zone placed opposite the control roller 9, each swing lever 6 is rotatably mounted on an eccentric shaft generally designated 13 and which also extends in the longitudinal direction of the motor. The oscillating lever 6 and the eccentric shaft 13 are part of a device by means of which the injection point can be adjusted, the oscillating levers 6 being then displaceable with respect to the fuel distribution cams 11 by rotation of the eccentric shaft 13 by means of their control rollers 9. For this purpose the eccentric shaft 13 is associated with an actuating device by means of which it can be turned in case of need and stopped in the position of corresponding setting. The actuating device mentioned above will be described in more detail below.

 According to the invention, the eccentric shaft 13, as shown in FIG. 2, consists of a plurality of parts separably connected to one another, in particular bearing parts 14 and eccentric parts 15.

The eccentric shaft 13 is maintained each time in the region of its bearing portions 14 by two bearing bodies 16, respectively one-piece, that is to say undivided, and which are each fixed in a fixed position in the motor, but however removably, by means of screws 17 passing through through holes and screwing into threads placed on the side of the frame. To simplify the drawing on fig. 2, there is shown completely only one of the bearing bodies 16; the other bodies are represented in part with a broken view and partly in section.

Each eccentric portion 15 carries - as shown in Figure 4 - an oscillating lever 6 and together with it an interchangeable construction set.

The eccentric portions 15 are arranged, as shown in Figures 2 and 3, eccentrically with respect to the two adjacent bearing portions 14 which are placed in axial coincidence with them. According to a characteristic of the invention, as many parts of the eccentric shaft 13 and its assembly as possible are provided, and at least, however, construction assemblies each consisting of an eccentric portion 15 and a an oscillating lever 6 - as shown in FIG. 4 - are identical to each other and are mutually interchangeable. Advantageously, the two bearing parts 14 mounted at the ends of the eccentric shaft 13 are also mutually identical and mutually interchangeable. The same consideration also applies to the other bearing parts 14, that is to say also that the bearing parts 14 arranged in each case between two eccentric parts 15 of the eccentric shaft 13 are mutually identical and mutually interchangeable. .

The two bearing parts 14 mounted at both ends of the eccentric shaft 13, however, need not necessarily have a shape different from the others, that is to say that all the bearing parts 14 of the eccentric shaft 13 can be identical to each other and mutually interchangeable. In a particularly advantageous manner, both the bearing portions 14 and the eccentric portions 15 of the eccentric shaft 13 are mutually identical and mutually interchangeable. Also preferably, the bearing bodies 16 are all provided with an identical structure and are mutually interchangeable.

Two such bearing bodies 16 and a bearing portion 14 of the eccentric shaft 13 also form an interchangeable construction assembly. In an internal combustion engine where the control of the intake and exhaust valves is carried out by means of rocker arms and, if appropriate, oscillating lever pushers, which are respectively mounted next to the camshaft and which are supported by a control roller on an associated cam of the camshaft intake and exhaust control, it is advantageously possible respectively that two of the aforementioned oscillating levers, namely a control oscillating lever an intake valve and an exhaust valve control lever are rotatably mounted on a bearing portion 14 of the eccentric shaft 13. In this respect, preferably each time an oscillating lever associated with a valve is provided. intake and a swing lever associated with an exhaust valve and a bearing portion 14 of the eccentric shaft 13 which supports them constitute a precast construction assembly that said building sets are again identical to each other and mutually interchangeable.

 The one-piece bearing bodies 16 comprise, in order to allow the passage of a bearing portion 14, a bore 18 passing therethrough and in which a bearing bushing is mounted, if necessary. Also each oscillating lever 6 comprises, for the passage of an eccentric portion 15, a bore 19 therethrough and in which is also mounted if necessary a bearing bushing.

 All the eccentric portions 15 of the eccentric shaft 13 have a circular cylindrical shape and the same diameter. Similarly, all the bearing parts 14 of the eccentric shaft also have a circular cylindrical shape and the same diameter. On their front sides, the eccentric portions 15 and the bearing portions 14 of the eccentric shaft 13 comprise means for establishing a connection by conjugation of shapes or a connection by conjugation of shapes and forces with the eccentric shaft portion to be coupled respectively In the drawing there is shown an exemplary embodiment of such a connection by conjugation of shapes and forces. For this purpose, there are provided at the front ends eccentric portions 15 of the parallel flats 20 to the axis and, on the end ends of the bearing parts 14, flats 21 parallel to the axis further is provided in the eccentric portions 15 and in the bearing portions 14 transverse holes 22, 23 perpendicularly crossing the flats 20 and 21, mutually arranged in coincidence and used for the passage of mechanical bolts 24 for their connection. In the assembly condition, an eccentric portion 15 then engages with its corresponding flat surface 20 on the associated flat portion 21 of a bearing portion 14 and is locked thereon by means of a nut 25 screwed onto the threading of the associated mechanical bolt 24.

 The spacing between the flats 20 and 21 provided on the eccentric portions 15 or the bearing portions 14 of the eccentric shaft 13 has in each case the same magnitude and preferably corresponds to half the eccentric stroke. These dimensional relationships are well shown in FIG. 3, in which case the dimension "x" indicated each time between arrows defines the spacing of a flat surface 20 with respect to the axis 26 of an eccentric portion 15. or a flat 21 with respect to the axis 27 of a bearing portion 14. The dimension "y" indicated between arrows defines half of the eccentric stroke which is equal to "2 x in correspondence with the given definitions above.

 As already mentioned briefly at the beginning of the description, the eccentric shaft 13 is associated with an actuating device by means of which it can be rotated in case of need for the adjustment of the injection point and it can be blocked. in a corresponding setting position. A displacement or a new setting of the injection point may be necessary in the case of changes in the quality of the fuel to be burned; however, it may be advantageous, and possibly even necessary, to adapt the injection point to the rotational speed, load or other parameters, varying during operation, of the internal combustion engine. The adjusting device comprises a lever 28 mounted at a suitable location on the eccentric shaft 13, shown only schematically in FIG. 2 and which, if necessary, can be operated either manually or automatically by being connected to an electric motor or hydraulic maneuver. In the case of manual actuation of the lever 28, there should be further separate locking devices which would ensure a stop of the eccentric shaft 13 in any desired setting position. In the case of an automatic actuation of the eccentric shaft 13, its locking in the corresponding adjustment position is ensured by means of the actuating motor which is connected to the lever 28. For a particularly precise and fast regulation of the point injection, the aforementioned operating motor can be connected in a control circuit which comprises a microprocessor whose program operates taking into account the actual values, which are constantly provided, variable operating parameters of the internal combustion engine.

Claims (16)

1. Reciprocating internal combustion engine, the injection valves of which are supplied with fuel by individually arranged injection pumps and whose pumping pistons can be controlled from a camshaft by means of pushers with rollers with respective interposition of a. oscillating lever, said oscillating levers a) being each in working contact on the one hand by a  upper pressure surface with the roller of a pusher  with roller and secondly by means of a roller control  who is mounted on them rotating with the outline of  control of a fuel dispensing cam b) being rotatably mounted on an eccentric shaft, and c) being displaceable by rotation of the eccentric shaft at the  by means of their control rollers with respect to the cams  fuel dispensing for point adjustment  of injection, the eccentric shaft being associated with an actuating device by means of which this shaft can be rotated in case of need and can be immobilized in a corresponding adjustment position, characterized in that the eccentric shaft ( 13) is composed of different separably connected parts, in particular a) bearing parts (14) which are respectively mounted  in bearing bodies (16) placed in positions  fixed but nevertheless removable, and b) eccentric parts (15) each of which constitutes a  building set with swing lever (6)  carried by it and which is arranged eccentrically by  relative to the two adjacent bearing parts (14) and  placed axially in relative coincidence, and in that as many as possible of parts of the eccentric shaft (13) and its bearing, and at least however each building assembly respectively consisting of an eccentric portion (15) and an oscillating lever (5) are mutually identical and mutually interchangeable. 2. Internal combustion engine and reciprocating piston according to claim 1, characterized in that also the two bearing parts (14) placed at the ends of the eccentric shaft (13), are identical to each other and are mutually interchangeable 3 Internal combustion engine with reciprocating pistons according to Claim 1, characterized in that also the bearing parts (14) which are arranged between two eccentric parts (15) of the eccentric shaft (13) are identical to each other and are mutually interchangeable. 4. Internal combustion engine and reciprocating piston according to claim 1, characterized in that also all the bearing parts (14) of the eccentric shaft (13) are mutually identical and mutually interchangeable. 5. Internal combustion engine and reciprocating piston according to claim 1 characterized in that both the bearing parts (14) and also the eccentric portions (15) of the eccentric shaft (13) are identical to each other and mutually interchangeable. 6. Internal combustion engine and reciprocating piston according to claim 1, characterized in that also the bearing bodies (16) are all identical to each other and are mutually interchangeable. Internal combustion engine with reciprocating pistons according to one or more of Claims 1 to 6, characterized in that two bearing bodies (16) and one bearing part (14) of the eccentric bearing (13) respectively constitute an assembly of construction if necessary prefabricated. 8. Internal combustion engine with reciprocating pistons according to one of claims 1 and 7, characterized in that the assemblies - each consisting of a bearing portion (14) of the eccentric shaft (13) and two bearing bodies (16) mounted thereon are mutually identical and mutually interchangeable. 9. The internal combustion engine with reciprocating pistons according to claim 1, wherein the control of the intake and exhaust valves is effected by means of rocker arms and, if appropriate, oscillating lever stop rods. - Which are each mounted next to the camshaft and which are each supported by means of a control roller on an associated cam of the intake or exhaust control of the camshaft, characterized in that of the aforesaid oscillating levers, each of two levers, in particular one for the intake valve control and one for the exhaust valve control, are rotatably mounted on a bearing portion (14) of the shaft eccentric (13). Internal combustion engine with reciprocating pistons according to claim 9, characterized in that respectively an oscillating lever for the intake valve control and an oscillating lever for the exhaust valve control as well as a lever portion (14). ), they supporting, the eccentric shaft (13) form a prefabricated construction assembly, said building sets being mutually identical and mutually interchangeable. Internal combustion engine with reciprocating pistons according to any one of claims 1 to 10, characterized in that the eccentric portions (15) of the eccentric shaft (13) have a circular cylindrical shape and all have the same diameter. 12. Internal combustion engine and reciprocating piston according to any one of claims 1 to 10, characterized in that the bearing parts (14) of the eccentric shaft (13) have a circular cylindrical shape and all have the same diameter. Internal combustion piston engine with reciprocating pistons according to one of Claims 1 to 12, characterized in that the eccentric parts (15) and the bearing parts (14 of the eccentric shaft (13) have on the front sides means for a connection by conjugation of shapes with the eccentric shaft portion respectively to be coupled. Internal combustion engine with reciprocating pistons according to one of Claims 1 to 12, characterized in that the eccentric parts (15) and the bearing parts (14) of the eccentric shaft (13) comprise on the front sides of the means for establishing a connection by conjugation of shapes and forces with the eccentric shaft portion respectively to be coupled. 15. Internal combustion engine with reciprocating pistons according to one of claims 13 and 14, characterized in that the eccentric parts (15) and the bearing parts (14) of the eccentric shaft (13) comprise in the region of their ends of the transverse holes (22, 23) allowing the passage of mechanical screws (24) to ensure their connection. 16. Internal combustion engine and reciprocating piston according to one of claims 13 and 14, characterized in that on the front ends of the eccentric portions (15) and the bearing parts (14) of the eccentric shaft (13), there are provided flats (20, 21) parallel to the axis and transverse holes (22, 23) extending perpendicularly therethrough for the passage of mechanical screws (24), in which case in the mounted condition an eccentric portion (15) is provided. ) is applied by its flat (20) against a corresponding bearing portion (14) and is pressed against it by means of a nut (25) screwed onto the thread of the mechanical screw (24) mounted. 17. Internal combustion engine and reciprocating piston according to claim 16, characterized in that the spacing (x) between the flats (20, 21) and the axis (27) of the bearing parts (14) or (26) ) eccentric parts cul5) are respectively equal and sufficiently large to obtain in the mounted condition the eccentric half-stroke y with  h y = 2 = 2 x x  2