DE1069932B - Decompression direction - Google Patents

Description

/ I

GERMAN

AN M E LD E DAY: AUGUST 31, 1957

NOTICE
THE REGISTRATION
AND ISSUE OF THE
EDITORIAL: NOVEMBER 26, 1959

The invention relates to a decompression device for valve-controlled internal combustion engines with an actuating shaft which runs parallel to the longitudinal axis of the machine and is provided with a hand lever, the flats of which attack projections of the valve push rods for the purpose of lifting the valves when the actuating shaft rotates out of the operating position. The decompression device also has a camshaft that runs parallel to the longitudinal axis of the machine and carries a worm into which, when the actuating shaft is moved into the decompression position, the sliding pin end of a locking lever engages by pivoting it about two mutually perpendicular axes, the actuating shaft being held in the decompression position until the locking lever is moved by the worm after a few machine revolutions, whereupon the actuating shaft returns to the operating position.
A known decompression device of the type described above has the disadvantage that the force of the numerous powerful valve springs rests on the slide pin and causes it to wear out prematurely.

In another known decompression device, which is similar to: the one mentioned above, there is no lock in the decompression position. As a result, it is not possible for the person who starts the motor by hand to hold both hands use.

A third decompression device works differently from the type mentioned at the beginning with partial cancellation of the decompression, for which a special switching shaft is necessary, which the Required space and the construction costs increased inadmissibly. ■ ''

.-; The object of the invention is to avoid the disadvantages of the aforementioned types. This object is achieved in connection with a decompression device of the type mentioned in that ■ when the actuating shaft is rotated in the decompression position, a pawl attached to it slides over the end of the two-armed locking lever facing away from your sliding pin and engages there, the axis of rotation perpendicular to the camshaft axis of the locking lever is outside the line connecting the points of support of the locking lever on the pawl and ¹ on "the worm" and the distance between this axis of rotation and the connecting line is a fraction of the distance between the point of support of the slide pin and this axis of rotation. The inventive separation of the locking lever and the decompression shaft and the two-armed design of the lever make it possible to achieve a decompression device

Applicant:

Motoren-Werke Mannheim A. G.

vorm. Benz Dept. Stat. Engine construction,

Mannheim, Carl-Benz-Str. 5

Walter Benz, Mannheim-Friedrichsfeld, has been named as the inventor

that the bearing force of the slide pin against the valve spring forces transmitted by the pawl is very high is small and that the lever arm on which the valve spring forces act, very small compared to the Lever arm can be held on which the support. · '. acts by the force of the sliding pin. '

The worm attached to the camshaft is expediently designed as a disk with spiral guide grooves that are perpendicular to the Extending the camshaft axis extending plane. '■; This allows the decompression device according to the invention on machines of the normal type, d. H. Machines in which the decompression is "switched off by hand" without major changes to the Fit the crankcase.

A stop for the locking lever is advantageously provided, with which the path to the disengagement of the Lock lever can be changed. This allows the number of engine revolutions, which are necessary to switch off decompression, to be adjusted. Set the solution to different outside temperatures. The drawing shows an embodiment of the Invention. It shows

Fig. 1 is a cross section, ■

2 shows the valve drive in a schematic representation, ■ - with the actuating shaft and 'the lifting attachment, ■. ,.

3 shows a plan view with the cover lifted off.

It means in Fig. 1 and 3 position 1 the actuating shaft with the hand lever 1 'and the pawl 1 &'. , C with the support surface 1 and in a spiral comparable running peripheral surface ¹ 1 d. 2 is the camshaft which the disk 3 with the spiral guide grooves 3 σ- carries. The two shafts 1 and 2 are mounted in the machine housing 14. Furthermore, the rotatable one is in the same. Pin 4 with the cross ■ pin 4 α mounted. The locking member 5 is on this

. 909 650/134

Claims (3)

The locking member 5 carries the nose 5 α and the Fithlstift 5 b and is under the influence of the spring 6. The entire device is enclosed by the cover 7. has been released (Fig. 3), the spring 6 pushes the feeler pin; 5 & (Fig. 1) out of the spiral grooves, and the lower part of the locking member 5, which carries the feeler pin 5b, goes under the action of In Fig. 2 means 2 the camshaft with the shock 5 spring 12 (Fig. 3) in the starting position, is therefore rod 9 and the valve drive 10 again. The actuating shaft 1 has the shaped guide grooves 3 a. It should be noted, Ie flattening on. 11 is the return spring, which also means that the pivot angle of the locking member 5 can be designed as a torsion spring. adjustable stop 13 varies to some extent. Fig. 3 has essentially the same positions as can be. This allows the number of Um-Fig. 1, but beyond that the retraction rotations, which spring the machine 12 without compression, and the adjustable stop 13 are provided. can do, change. So you will choose a higher number of revolutions in winter than in summer. Mode of operation When the stop 13 is turned out to the right, the flattened area 1 e 15 is in the operating state, then the winter position, turned in to the left, of the actuating shaft 1 in FIG. 2 is set in the summer position shown. Position B-B. Here, the bumper 9 is completely free, the valve drive uninhibited. When adjusting the hand lever la in position A (decompression), the actuating shaft 1 is pivoted counterclockwise against the action of the return spring 11 and thus the. Flattening 1 e in position A-A. (Fig. 2) brought. As a result, the same comes into contact with the approach 9 a and thereby lifts the bumper 9 upwards. This brings the valves 25 into the open position. The device according to the invention is used to maintain this state until the machine has the right momentum. The pawl Ib is located on the actuating shaft 1. When pivoting from position B to position A 30 (FIG. 3), the pawl Ib passes the nose 5α. This is possible without hindrance because the spring 6 pivots the lower part of the locking member 5 to the left (FIG. 1) and thus keeps the feeler pin 5b out of engagement with the guide surface 3 and its spiral-shaped guide grooves 3 α. After sufficiently far pivoting of the lever la to the left, the nose 5 α of the locking member 5 slips as a result of the action of the spring 12 under the holding surface 1 c of the pawl 1 b and snaps all the way to the left. When the hand lever 1 α is released, it rotates slightly clockwise again under the action of the return spring 11 until the holding surface 1 c comes to rest on the uppermost end of the nose 5 α. Now the holding surface Ic presses under the action of the return spring 11 45 on the nose 5 a, the locking member 5 (Fig. 1) pivots against the action of the spring 6 about the axis 4 α and brings the feeler pin 5 b to engage in spiral guide grooves 3 a . When the machine is now turned, the feeler pin 5 6 screws itself outward in the spiral 50-shaped guide grooves 3a (FIG. 3). The locking member 5 is therefore pivoted clockwise until the part of the pawl 1 b provided with the holding surface 1 c comes free from the nose 5 α of the locking member 5 and the pawl 1 b can slide clockwise past the nose 5 a. This takes place at the moment in which the feeler pin 5 b has screwed up approximately to the outermost groove of the spiral grooves 3 a. As soon as the pawl Ib has slid past the nose 5 a clockwise, 60 two things happen: The flat 1 e (Fig. 2) also rotates clockwise and releases the approach 9 a and thus the valve drive, the valves close and as a result of the restored compression the engine starts. 65 At the same time, however, since the nose 5 α from the latch Ib Pa τ KNTa1N s \> η ve 111: 1. Decompression device for valve-controlled internal combustion engines with an actuating shaft running parallel to the machine longitudinal axis, provided with a hand lever, the flattened areas of which attack the projections of the valve push rods for the purpose of lifting the valves when the actuating shaft rotates out of the operating position and a camshaft also running parallel to the machine longitudinal axis, which carries a worm in which, when the actuating shaft is moved into the decompression position, the end of a locking lever designed as a slide pin engages by pivoting it about two mutually perpendicular axes, the actuating shaft being held in the decompression position until the locking lever has been moved by the worm after a few machine revolutions , whereupon the actuating shaft returns to the operating position, characterized in that when the actuating shaft (1) is rotated in the decompression position, a be on the same The fixed pawl (Ib) slides over the end (5 a) of the two-armed locking lever (5) facing away from the slide pin (5b) and engages there, the axis of rotation (4 a) of the locking lever (5) perpendicular to the camshaft axis outside the line connecting the support points of the Locking lever on the pawl and on the worm (3) and furthermore the distance of this axis of rotation from the connecting line is a fraction of the distance of the point of support of the slide pin from this axis of rotation. 2. Decompression device according to claim 1, characterized in that the on the camshaft (2) attached screw (3) designed as a disc with spiral guide grooves (3a) which extends in a plane perpendicular to the camshaft axis. 3 .. decompression device according to claim 1, characterized in that a stop (13) for the locking lever (5) is available, which changes the path until the locking lever disengages can be. Considered publications: German Patent Specifications No. 521 158, 748 505; British Patent No. 400 322. 1 sheet of drawings © 909 650/134 11.59