DE486795C - Pipe slide control for internal combustion engines - Google Patents

Description

Pipe slide control for internal combustion engines On internal combustion engines, that work with pipe slide control, the supply or discharge of mixtures takes place and gases from the cylinders by reciprocation and simultaneous oscillation the pipe valve. The pipe slides are then driven by a countershaft driven an arm articulated to it.

According to the present invention, this control is made from back and forth going and swinging pipe valve improved by being on the crank the countershaft is a ball head immovable in the axial direction of the shaft which is enclosed by the arm that goes from this shaft to the pipe valve is, and the enclosing end of the arm is accordingly as a hollow spherical cap educated. The end of the arm encircles the entire ball head therefore not held because the assembly of the parts is difficult or impossible were. The arm covers only part of the ball head, and the enclosure is through a second spherical hood is added, which is connected to the arm.

The ball head itself again is made up of two hemispherical ones Share together, by a resilient ring, in a circumferential groove of the two halves of the ball inserted, held together. In another execution form, however, the The ball head and the crankshaft are made in one piece.

The connection of the arm between the pipe slide and the countershaft takes place on the pipe slide through a pin. As the stress on this journal as a result of the peculiar movement of the pipe slide one in different directions is directed towards, the pin has a groove in which a clamp member of the arm engages, so as to make a longitudinal displacement of the pin impossible. The bracket member consists from a piece of wire that goes through a slit in the arm and attached to it.

Move the arm as close as possible to the axis of the pipe pusher To be able to do so, it has two recesses that are in the various positions of the Place the crank on various parts of the circumference of the pipe slide. This arrangement permits a shortening of the distance between the countershaft and the pipe slide.

The drawings represent exemplary embodiments: Fig. I is a horizontal one Cross-section through an internal combustion engine and shows the new drive device for the pipe valve. Fig. 2 is a vertical longitudinal section through a cylinder of the machine.

Fig. 3 shows a diagram of the ball head for the crank pin and a resilient ring for the ball head, and Fig. 4 shows part of Fig. i with a modified embodiment of the ball head. The one shown in the drawing Machine A can have one or more cylinders. Each cylinder is with one Inlet = o and an occasion = i of known or some preferred construction Mistake. In order to monitor the openings = o and = i of each cylinder, in the same, as can be seen particularly clearly from Fig. 2, a pipe valve B is arranged. In this pipe slide there are openings = 2 and = 3, which rides the corresponding one Cylinder orifices = o and = i work together to access in the desired manner of the fuel and to monitor the escape of the burnt gases. The special one The construction and arrangement of the cylinders and the openings in the same do not constitute one Part of the present invention.

It is with internal combustion engines whose cylinder with a single Pipe sliders are provided, it is common and desirable to move the slider in such a way that that it is pushed back and forth and at the same time twisted around its own axis can. To achieve this goal, according to the invention, a countershaft C rotatable in bearings = 4 housed in such a way that this countershaft C is parallel to the crankshaft (if it is a multi-cylinder machine) of the Internal combustion engine comes to rest. The countershaft C is in any way if it is a four-stroke machine, by means of a sprocket or a Gear = 5 driven so that the speed is half the speed the crankshaft of the machine.

To drive the slide B from the countershaft C, the the latter with cranks spaced from one another = 6, on which a ball head = 7 is attached. This ball head is preferably divided at = 8, to facilitate composition. The two parts of the ball head can if desired, after their assembly by some device, for example held together by a resilient ring = g, which lies in a circumferential groove 1911 will. Each ball head = 7 is partially surrounded by one end of an arm Igb. At this end of the arm igb a spherical cap zo is attached, which the rest of the Part of the ball head = 7 surrounds. The cap 2o is attached to the arm igb by means of bolts 2i attached. To make the arm igb extremely powerful and at the same time to do the To reduce it, it can have an I-shaped cross-section will. The other ends of the arm Igb are rotatable between them by means of a pin 22 inner bearing surfaces 23 and 24 of lugs 25 and 26 attached, which are attached to the pipe valve. Instead of bifurcating the approach to the slider to get into this To introduce the fork igb arm, you can of course also fork the igb arm and in the fork of the same introduce the lugs 25, 26 of the slide.

One feature of the invention is that side of the lever = g, which faces the pipe slide, with arcuate recesses 27 and 28 to be provided, which is essentially exactly the outer curvature of the slide are adapted when the slide is in the end positions of its movement in the direction of transversely to the countershaft C. With this construction it is possible to arrange the pin 22 relatively close to the pipe slide and to the same Time a relatively large storage area between the arm igb and the surfaces of approaches 25 and 26 to achieve. The arms Igb thus lead a compound Movement from, consisting of a movement in the axial direction of the slide (in parallel Planes and a movement across the countershaft. According to the invention it is thus possible to use a rigid arm = whether its attachment point to the Countershaft serves two purposes, namely to actuate the arm Igb and, to give it a universal movement, to make the arcuate movement of the Compensate pin 22 when the latter is about the longitudinal axis of the slide valve emotional.

In Fig. 4 is an improved way of attaching the pin 22 with Referring to arm igb and lugs 25 and 26 shown. In this embodiment the Arrn igb is provided with a slotted attachment, which is a clip member 3 = takes up. The pin 22 is notched and is either tangential Groove 32 or a circumferential groove in which the clip member 3 =, which for the sake of simplicity may consist of a piece of wire, protrudes. This wire 3 = is preferred provided with bent parts 33 which bear against the web of the arm Igb, so that the inwardly bent ends 34 of the wire, which by corresponding Holes protrude in the web of the arm igb, can be riveted. In this Way, a safeguard against displacement of the pin 22 is made, which does not interfere with the slide valve or the crankcase.

Instead of making the ball head = 7 separately from the countershaft C, you can do the same also manufacture uniformly with the countershaft, as shown in Fig. 4, for example. From this figure it can be seen that the ball head 17 'is made in one piece with the countershaft C'. Of the The crank pin of the last-mentioned countershaft C 'becomes spherical in a simple manner executed.

In order to prevent wear and tear of the individual parts as much as possible, even when the internal combustion engine is used for a long time, it has been found that it is advisable to manufacture the various parts preferably from different materials. The following table lists various novel combinations which have proven to be particularly advantageous. Machine part i .. 3 4 Pipe valve B CICICI steel Pin 22 CHSCHSCHSC- HS Arm rg duralumin with steel with with white steel duralumin Chrome metal surfaces, molded spherical bore Ball head 17 steel with with white steel with with white bronze steel with with white metal poured metal poured metal poured out single hole 36 single hole 36 single hole 36 Countershaft C steel steel steel steel In the table above, CI = cast iron, CHS = steel with a hardened surface. In the table above, the combinations according to column i and 2 have proven to be particularly advantageous. However, it is not necessary to manufacture the individual parts of the invention from the specified materials, but it goes without saying that equivalent materials can be used in place of those specified. The specified combinations have only proven to be particularly well suited to do justice to the various operating conditions to which the drive mechanism is subjected. It is evident that the choice of materials is entirely independent of the other features of the invention.

The drawing shows only two exemplary embodiments of the invention shown. However, many modifications are possible that will change the essence of the Invention is not changed.

Claims (7)

PATENT CLAIMS: i. Pipe slide control for internal combustion engines, in which the pipe slide is set in a reciprocating and oscillating movement by a countershaft that the pipe slide is driven by the countershaft through a hinged arm, characterized in that on the crank of the countershaft a in the axial direction of the Shaft immovable ball head (i7) is arranged, which is enclosed by the end of the arm designed as a spherical cap (igb). 2. Pipe slide control according to claim i, characterized in that that the connection of the arm (igb) to the ball head (i7) takes place in that the Arm (igb) only includes part of the ball head, while the other part of the ball head wears a spherical hood connected to the arm (igb). 3. Pipe valve control according to claim r, characterized in that the ball head (i7) consists of two hemispherical Parts is composed by a resilient ring (ig), which is in a circumferential groove of the two halves of the ball is inserted, are held together. q .. Pipe slide control according to claim i, characterized in that the ball head (i7) and the countershaft consist of one piece. 5. Pipe slide control according to claim i, characterized in that that the articulated arm (igb) and the pipe slide connecting pin (22) a Has groove (3a) into which a clamp member (3i) of the arm (ig) engages. 6. Pipe valve control according to claim 5, characterized in that the clamp member (3i) is made in one piece There is wire that goes through a slotted neck of the arm (igb) and is attached at its ends to this arm. 7. Pipe valve control according to claim z with an arcuate recess of the annes, characterized in that that on the arm two such recesses (27, 28) are arranged, which are at cling to the circumference of the pipe slide in the various positions of the crank, whereby the distance between the countershaft (C) and the axis of the pipe slide is reduced will.