DE124097C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

M 124097 CLASS 14 e.

H. DUBBEL in COLOGNE. Compulsory round slide control.

Patented in the German Empire on August 8, 1899.

The object of the invention relates to a positive rotary slide control in which the movement of the inlet slide ν directly from the eccentric rod with avoidance everything in between is removed. ■.

The accompanying drawings show such a control. The end of the eccentric e moved. The eccentric rod s is just guided in the guide g and, by means of the rod ν, controls the rod q with each other. connected outlet valve hh in an unchangeable manner. The inlet slide // are moved in a known manner by the oscillating disk α mounted in the middle of the cylinder (Fig. 1). In order to achieve the change in the filling, the oscillating disk α must therefore make movements of variable magnitude. For this purpose, a disc t connected to the oscillating disc α by rod c is mounted in the forked .Excenterstange s , in the slot k (Fig. 2) of which a stone y plays, which is rotatably mounted at its two pin-shaped ends ^ in the Excehterstange (Fig. 3) and describes the elliptical curve m . Depending on the inclined position of the disk t and thus also of the slot k caused by the controller, a shorter or longer piece of the curve m is known to be made usable for the movement of the oscillating disk and thus also the inlet slide (FIG. 2).

If the crank is in the dead point, whatever position the controller is in, the sliding block y must always be in the center of the disk t , because only then is the indispensable condition fulfilled with regard to the constant linear advance that there is a dead position in the crank. If the points ww of the curve m corresponding to the crank positions or the advance positions of the eccentric are connected with each other (Fig. 4) and a vertical line is established in the middle of the connecting line, a vibration is created of the disk ί around a point 0 lying on this perpendicular, as can be seen from the circular arc drawn in Fig. 4. In order to comply with this condition in all inclined positions of the lever d , which is adjustable by the regulator and rotatable by 0 , both end points η η of the lever d connected to the points ρ of the disk t by rods i of equal length, which means that fs the oscillation of the disk t always takes place around the point 0 and on the arc w n> . ·

The covering of the Einlafsschieber has now not take place until such a magnitude, that the opening of the inlet channels, as soon as the disc t beyond the arc n> w addition, swings, and it is the task of the regulator, t BEZW by the inclinations of the disc. the backdrop k to make these oscillations beyond ww of more or less great duration. To clarify, three different filling sizes should be considered.

1. Zero filling (Fig. 5). In this case the oscillation must not be greater than ww . The controller must therefore instruct the disk if in such an inclined position that the direction of the slot k touches the curve m at the point n>, thus already representing the outermost position.

• 2nd normal filling (Fig. 6 to 9). 6 to g show the positions of the link plate t and the oscillating plate a at the beginning and end of filling for one revolution.

Fig. 6. Crank b is in the dead point on the right, eccentric e in the advance position. Stone y is located in the curve point w corresponding to the advance position of the eccentric and at the same time stands in the center of the disc t in order to meet the requirement of constant linear advance. The dotted position of the disc t and the rod c represents the widest deflection of these parts for this normal filling, as well as the oscillating disc α and the slide //. This widest deflection is achieved when stone y is at the point of the curve that runs through Point w to the direction of the backdrop drawn parallel uv has the furthest distance.

Fig. 7. Stone y is at the intersection χ of the above parallel uv with curve m, so that the disc t is in the original position. and the inlet slides close after covering the linear advance. The projection of the arc, described from the center of the eccentric during opening, onto the diameter indicates, as is known, the associated filling.

■ In Figs. 8 and 9, the processes are repeated in exactly the same way for other side of the piston.

3. Maximum filling. The parallel drawn through the curve point w to the direction of the backdrop set by the controller intersects the curve at a second point x ¹ . The curve piece wx ¹ corresponds to the arc of the angle co, and the projection of this arc onto a diameter passing through one of its end points gives the size of the filling (Fig. 10).

Claims (1)

Patent claim: Zwangläufige rotary slide valve control, characterized in, that the necessary change for the filling movement of the variability of the usual associated with the Einlafsschiebern (ff) control disc (a) is achieved by, that one with. the control disk (a) by rod (c) connected disk (t), in the link slot (k) . Stone (y) which is mounted in the eccentric rod (s) and describes a curve (m) plays, through which the linkage (0 njp) , which is also used for guidance, is rotated by the controller (r) , whereby parts of the curve (m) of different lengths for the Opening of the inlet slide (ff) can be made usable. 1 sheet of drawings.