DE117814C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 117814 CLASS 466.

Regulators for explosion engines.

Patented in the German Empire on March 7, 1900.

The subject matter of the invention relates to a control device for explosion engines at high speed, such as those used for motor vehicles, where the regulator is intended to prevent runaway, when the machine is disengaged to change speed or to stop.

Because machines of this type almost all by the number of explosions and not by change the charge respectively. the amount of charge is regulated, occurs with every change in speed a flyball regulator out of its equilibrium state much earlier than its action actually noticeable will, since the change in the speed of the machine, albeit the weights of the controller immediately as a result of the increase in speed swing out, yes. only occur when the next explosion is due can, which in single-cylinder machines to the previous one only after two revolutions follows the crankshaft.

In the drawing shows:

Fig. Ι the regulator with a partial section through the outflow channel of the cylinder Explosion engine,

Fig. 2 shows the other position of the same regulator with a modified shape,

Fig. 3 and 4 the controller with further modifications,

Fig. 5 is a top view of the control device.

From the firing chamber A of the machine A spring E ² on the valve rod escape through the Ausströmungsventil E, "which is controlled by the valve rod E ^1, aufsen the burnt gases through the channel E ³ after. Searches the valve against its seat to hold down. A on The thumb C seated on the control shaft controls the valve E by means of the valve rod E ¹ guided through the bearing G.

The valve rod carries a block B ; the- . it has an inclined edge or flange B \ which serves to hold the nose / locking hook M when it is with. the same is engaged. The ratchet M is rotatably mounted on an axis P to which one end of a coil spring S is connected, the other end of which is attached to the ratchet M at m.

The locking hook M is provided with a counterweight W and a further arm D. The locking hook M is attached to the axis P in such a way that the arm D rests against the block B on the valve rod E ¹ , so that the movement of the valve rod when the valve is opened causes the locking hook M to move from the position drawn in full lines into the dotted position indicated is rotated (Fig. 1). In the latter position, the nose J of the locking hook is under the flange B ^{1 of} the

Block B. The spring S acts in _{11 in} the direction indicated by the arrow S ¹ in FIG. 1, so that the locking hook M is returned to its original position (fully extended in FIG. 1).

The mode of operation of the regulator is as follows: As soon as the outflow takes place. should, the thumb C moves the rod E ¹ and thus opens the valve E. The block B strikes against the arm D and causes a rotation of the locking hook M, the nose J behind the inclined edge J5 ¹ (Fig. 1 shown dotted) is brought. In the decline of the valve rod E ¹ the outflow valve E is closed by the spring E ^2, wherein the block B is moved back and the coil spring S allows to rotate the pawl M, is raised to the original position whereby the nose J. This effect occurs with every stroke of the discharge valve and for as long as. the machine runs normally. However, as soon as there is an increase in speed, the ratchet M, which is rotated at increased speed, continues to move after the block B has reached the end of its stroke. The nose J of the same therefore reaches a lower position than the normal one, and moreover the block B returns earlier because of the increased speed of the machine, so that the nose J comes under the flange B ¹ and the discharge valve is kept open, as in Fig. 2 is shown in full lines, which prevents a new filling from entering the next time the machine is primed, thereby reducing the speed. At the next outflow of the block B is moved only by the amount which it has fallen, before joining with the nose / engages (about Y ₃ of the stroke), but this movement provides the locking hook sufficient force when the speed of the machine is still too great to engage the nose / a second time, or when the speed has decreased sufficiently to allow it to be released; in the latter case the discharge valve closes again and a fresh charge is sucked into the cylinder.

Fig. 2 shows another form of ratchet nose which has three teeth; Fig. 3 shows a further modification in which the nose J ^{1 is} specially fastened to the hook by a screw or is otherwise detachably attached so that when it is worn it can be removed and replaced with a new nose piece. In this embodiment the block is also provided with three tooth incisions b ¹ and in FIG. 4 the block 'is provided with two tooth incisions.

This regulator can only be used on machines that have automatic inlet valves.

The valve rod E ¹ must of course be provided with means or be guided in such a way that it is prevented from rotating, or the block B can be designed cylindrically with the flange B ¹ or be provided with cylindrical tooth notches, so that if the Valve rod the mode of operation of the controller is not influenced.

Any risk of explosion caused by the haze in the outflow space Arrangement of a valve that opens inward by suction can be avoided. A lot of cold air is drawn into the cylinder with each stroke when the regulator holds the valve open, causing the Cylinder is cooled and the mixture is diluted in the outflow space.

Another great advantage achieved by this control device is that the valves can be kept open by a simple arrangement of a wire pull, which makes it possible to reverse the movement without any effort, followed by the pull as soon as the machine frees is released again on the control device. The same applies when starting the machine, where the compaction would have an aggravating and hindering effect. The device for keeping the valve open is shown in FIG. ^{A cable drum P 1} , on which a cable or chain P ^{2 is} attached, sits on the shaft P. One end S ^{3 of} a spring S ² is attached to the frame of the machine, while the other end is attached to the drum P ^1.

By pulling on the rope P ² , the drum P ^{1 is} rotated, whereby the spring S ' ^{2 is} tensioned, while at the same time the regulator spring S also receives a greater tension, so that the locking hook M is forced to retreat out of the area of the block B more quickly . But as soon as the rope P ² is released again, the spring rotates the cable drum P ¹ and thus also the shaft P back into its initial position and the spring £ receives its normal tension. The same effect could be obtained if a lever were used ^{instead of the drum P 1.}

Claims (1)

Patent Claims: i. Regulator for explosion engines, characterized by a swinging locking hook (M), which is secured in one direction by a block or pre-valve attached to the rod (E ¹ ) of the exhaust valve. jump (B) and rotated in the opposite direction by a spring (S).
A regulator according to claim i, characterized in that, when the exhaust valve rod (E ¹ ) is moved, the block (B) thereof abuts against an arm (D) of the locking hook (M) , as a result of which the locking hook (M) is rotated so far that the nose (J) of the same lies below the projection (B ¹ ) of the block (B) , which projection is caught by the nose (J) if the machine is too fast and keeps the exhaust valve in the open position. For this purpose ι sheet of drawings.