DE669498C - Power or working machine with pistons rotating always in the same direction of rotation with periodically changing ratio of their angular velocity - Google Patents

Description

Power or working machine with always in the same direction of rotation periodically changing ratio of their angular velocity rotating piston die Invention according to patent 638 007 relates to a prime mover or working machine with at least two rotary pistons enclosing the working space between them, which are always in the same position Rotate sense of rotation with periodically changing ratio of their angular speed and of which at least one with the drive shaft (power or drive shaft) through a gear transmission with elliptical gears or normal gears is coupled with an eccentric axis of rotation, in such a way that, if the requirement is placed, in the initial position of the two pistons between these one completely certain dead space as small as possible and at the same time a certain change in size To maintain this space during a work process, one of this requirement at any time by keeping within the limits of the size of the interval the transmission ratio changes during one revolution of the pistons, one must assign very specific offset angles of the gears against the piston. After this invention you have it in hand, both the size of the initial dead space like the size of the work area during the work cycle Select. One must not, to put it negatively, either the offset angle alone or change the gear ratio alone, but must change the ratio these two sizes to each other depending on the requirements made accordingly set up.

This inventive idea of the main patent can be used for machines with two pistons as well as those with more than two pistons. For machines with more than two pistons, e.g. B. explosion machines, the result Disadvantage that at a freely chosen point of the annular cylinder space for all piston spaces do not have the same interplay, creating additional Control organs are required if a circular process is to result. The additional The inventive concept avoids these disadvantages. It consists in that if the requirement is made to use several pairs of pistons and at a certain point of the annular cylinder channel, a periodic interplay of everything here from the piston formed spaces should take place, the shape of the gears accordingly to choose.

An embodiment of the invention is shown in .den. = To q. illustrated. In Fig. I, the inventive concept according to patent 638 007 is shown. Fig. 2 shows the new inventive concept, while Fig. 3 and q. represent an application of this new idea to an internal combustion engine. In order to facilitate understanding, the same reference symbols are used for the individual elements in all figures. Here i and 2 mean the two pistons located in an annular channel. This annular channel is formed by the housing 3 and the walls of the two relatively rotatable piston wheels q. and 5, one of which carries piston i and the other carries piston 2. each piston wheel is' coupled via a shaft ii and 12 to the common drive or power shaft 6 by a gear transmission which, in the machines shown, consists of two gears 7 and 8 or 9 and io. For the sake of simplicity, the toothing of the gears has not been drawn, only the pitch circles of these gears.

In Fig. I, the gears of each of these two transmissions are correct in size and shape and should have a purely elliptical shape. Drawing but the wheels are represented by circles because their deviation from the ellipse is extremely small. Their axis of rotation goes through one of the focal points of the ellipse. The distance between the output shaft 6 and the driven shafts zi and 12 of the piston wheels q. and 5 is equal to the large diameter of the ellipse.

Now assign two pistons i 'and 2' to the two pistons i and 2, in such a way that on the piston wheel 4, the piston i 'is diametrically opposite the piston i is attached. Accordingly, the piston 2 'on the piston wheel 5 should be diametrically opposite be fastened by the piston 2. A moment's reflection will reveal that after half a revolution of the drive shaft 6 and a corresponding revolution of shafts ii and i2 these pistons do not come into the previous position of pistons i and 2, in fact, instead of the smallest dead space that was previously desired half a turn, the largest piston gap is now available at this point be. To avoid this, you have to use a different form of gearwheel here apply. In FIG. 2, this has been done using the invention of the inventive idea expressed in patent 638 007, namely in addition to the coming transmission ratios the necessary displacement angle of the pistons and piston wheels apply. Here is the almost circular gear 7 (Fig. I) with the axis of rotation at a focal point of the ellipse by an elliptical gear 7 (Fig. 2) is applied with the axis of rotation in the center of the ellipse, accordingly an elliptical gear 9 is assigned to the pistons 2 and 2 '. With these two elliptical The gears attached to the piston shafts ii and 12 are gears 8 and io (Fig. 2) coupled to the output shaft 6. These are circular in FIG. 2 Shape. However, they are fastened eccentrically on the shaft 6. Your size gives from the dimensions of the ellipse. However, you can also use known, elliptical gears with pivot point. to be replaced in the middle. The gears In this case, however, 7 and 9 no longer have a strictly elliptical shape. she then rather deviate somewhat from an ellipse; in this case the gears have 7, 8, 9 and io the same shape and size.

As can be easily seen from FIG. 2, the desired purpose can be achieved by selecting gears of the specified shape, ie in an explosion engine the starting position of the pistons would always be in the same place, namely where the largest Compression is about the spark plug, see z. B. reference number a in Fig. 3 of the patent 638 007, also the greatest piston distance where the suction of the gas mixture ends and the compression begins, corresponding to the process at the end of expansion and transition to the process of exhausting. This makes it possible to control the individual processes in an internal combustion engine with the rotating pistons, as shown in FIG. The letters entered here illustrate the individual processes, namely: S intake, K compression, Z ignition, E expansion, A exhaust. The two arrows drawn are intended to indicate that the gas flow is sucked in or the combustion residue is blown out through the corresponding opening: For the sake of better clarity, FIG. the pitch circle lines of the gears are not shown. The gears themselves are, however, shown in section in FIG. 3.

Naturally, an arrangement of the pistons and Gears with advantage also for another engine; such as For a steam engine or for a work machine such as a pump will. However, in this case there are analogous changes to the inlet and outlet openings to undertake. In all of these cases, however, additional valve controls are required avoided.

Claims (2)

PATENT CLAIMS: i. Power or working machine with at least two between the working space enclosing rotary pistons, which are always in the same Rotate sense of rotation with periodically changing ratio of their angular speed and of which at least one with the drive shaft (power or drive shaft) through a gear transmission with elliptical gears or normal gears is coupled with an eccentric axis of rotation, according to patent 638 oo7, characterized in that that when using two pairs of pistons (i, i 'or 2, 2') the transmission gears (7, 8 or 9, io) designed in a manner known per se similar to an ellipse and in the Center are stored, so that the smallest initial dead space always to one before definable place comes to rest. 2. engine according to claim i, characterized in that that the drive wheels (7, 9) have a purely elliptical shape and are mounted in the center are that, on the other hand, the driven gears (8, io) consist of circular gears that are eccentrically mounted.