DE4435091C2 - Two-stroke piston V-rotor motor - Google Patents

Description

The well-known versions of the movement implementation of the back and forth Use the movement in the same direction as the rotation Crankshafts with connecting rods or racks and gear drives combined with pinch roller couplings.

These technical solutions have major disadvantages. So are the widespread use of the crankshaft in The moment of initiation of movement, the active partners in the worst leverage ratio. A disadvantageous efficiency and high forces at the time the movement is initiated on the Crankshaft bearings are inevitable. Furthermore act normal forces on the connecting rods during the course of movement driving cylinder. Increased frictional forces and secondly Increased signs of wear are the side effects. When using racks and toothed drives (DE 37 09 790 A1) combined with Pinch roller clutches (see Saß, history of German combustion engine construction by 1860 to 1918, - 1962, pp. 8 to 32) requires in particular that for the generation of rectified rotational movement required a gear drive considerable mechanical effort, the too high friction values and thus leads to reduced efficiency.

The object of the invention is to avoid this Disadvantages a new mechanism to implement a movement Back and forth movement in a rectified rotational movement create.

The task is characterized by the features of the present Claim resolved. The main innovation is that with the torque is comparatively low mechanical effort unchanged in every working cycle and at all times optimal lever arm from the power frame via the wedge rotors to the Output shaft is passed.

The invention relates to a V-rotor drive with two each arranged on an axis with one another Frame firmly connected pistons, the straight acting Mechanism drives a central shaft via wedge rotors.  

The constant direction of rotation is over the two alternating wedge rotors with power transmission elements are fixed to the plates firmly connected to the pistons, initiated. With these wedge rotors, the following is used linear movements described in rectified rotational movement converted. The the pistons and the Plate-bearing frames support the Active forces and moments compared to the machine housing.

The invention will below using an exemplary embodiment Described in more detail with reference to the drawings will. They represent:

Fig. 1 schematic representation of the top view;

Figure 2 is a schematic representation of the side view with a section along the line X;

Fig. 3 is a schematic representation of the side view with a section along the line Y.

Both pistons move in parallel, connected by the plates and the connecting plates. One is driven by initiated movement, the other is pushed over the connecting elements. The mechanics work through changing activities of the movements initiated via the pistons (see FIG. 1).

For example, the piston 2 is activated by a movement. The plate 1 is pushed over the plate 2 and the connecting plates and activated via the functional element B the wedge rotor AB. The result is a rotation of the output shaft by approx. 60 ° clockwise. In parallel, the wedge rotor CD is rotated counterclockwise by the connecting element D in idle mode by approximately 60 ° (cf. FIG. 2).

In the opposite direction, piston 1 is then activated. So that the plate 2 is pushed over the plate 1 and the connecting plates and activated via the functional element C, the wedge rotor CD.

The result is also a rotation of the output shaft by approx. 60 ° clockwise.

In parallel, the wedge rotor AB is rotated counterclockwise by the connecting element A in idle by approx. 60 ° (cf. FIG. 3).

The expected savings or improvements over the Known solutions of motion implementations are:

• - Significant savings in energy expenditure with the same Output power;
• - Reduction of the use of materials and the movement sequence, with the same output power;
• - Possibility of stepless rotation control;
• - Reduction of lubrication through much simpler mechanics and movement implementation on single point lubrication;
• - Significantly reduced unbalance in the overall system and thus associated wear and loss of performance;
• - When the power frame is at a standstill, it idles. This is this V-rotor drive z. B. out in an engine combination is suitable to be used as a hybrid transmission. Combinations of internal combustion engine, electric motor combined with a generator are due to the design principle of the V-rotor drive possible without problems;
• - Simple use as a module element, with the modules through the Free running properties of the wedge rotor when the power frame is at a standstill can be added or switched off depending on the power requirement, without hindering each other;
• - The area of application of the V-rotor drive is by none constructive peculiarity limited in its use.

Claims (1)

V-rotor drive for converting a back and forth movement into a rectified rotational movement of an output shaft in a power frame with the following features:
⚫ V-rotors that are seated on an output shaft
⚫ V-rotors alternately transmit the torque to the output shaft via pinch rollers,
⚫ The power frame transfers the torque to the wedge rotors via power transmission elements.