SK2382000A3 - Link type engine - Google Patents

Abstract

To the shaft (1) which is fulcrumed in the frame (16) is with at least one end co-axially half-roundly adjoined at least one spigot (2) e. g. by pressing on, whereby at each spigot (2) is fulcrumed piston (3) reversibly moving opposite roller (4) following the axe (13). Roller (4) is created in entity (5), which is fulcrumed by bearing (8) in the frame (16). To the roller (4) of the in entity (5) is fixed top (6) e. g. by screws. Among the piston (3), the entity (5) and the top (6) are placed working areas (14) and (15) to which is adjoined unillustrated distributor of working medium.

Description

Technical field

The invention relates to a piston engine with a sliding mechanism.

BACKGROUND OF THE INVENTION

The crank mechanism of the piston engine is both weight and space intensive, which is disadvantageous. Balancing the inertia sliding forces of the crank mechanism is also problematic and imperfect. Reciprocating engines are known in which the crank mechanism is not used to change the reciprocating reciprocating motion, but uses the bevel plate principle. A disadvantage of this arrangement is the unfavorable force load. Further, piston engines are known in which the principle of a nut wheel is used to change the linear reciprocating motion. On the nut wheel due to its rotation, a carrier on which the ball joints of the piston rods are attached can be mounted directly, but only by means of a bearing, which is disadvantageous. The mechanism of the internal combustion engine with a circular motion of the piston is characterized by uneven temperature distribution and a complicated seal, which is disadvantageous.

SUMMARY OF THE INVENTION

These drawbacks are overcome by a gasoline engine according to the invention which consists of a shaft, pin, piston, cylinder body, timing and engine accessories. The invention is based on the fact that the individual elements of the slipper motor are arranged in such a way that the shaft rotatably mounted in the frame is coaxially eccentrically connected with a pin on which the rotatably mounted piston is movably reciprocatingly rotatable in the cylinder body. The cylinder formed in the cylinder body is closed by the head. There are working spaces between the piston, the cylinder body and the head to which the working medium is connected.

The two working spaces of the sliding engine defined by the piston, the cylinder body and the head change their volume as a result of the movement of the sliding engine mechanism. The working medium in the work areas is replaced by a distribution system (not shown), e.g. channel, valve, slider or other. The big advantage is that work can take place

-2on both sides of the piston. The single-cylinder piston engine applied as an internal combustion engine can, due to its double action, theoretically double the liter power of a conventional single-cylinder piston engine. Depending on the distribution used, the internal combustion engine can be either two-stroke or four-stroke. The movement of the center of gravity of the piston engine is only rotational. The cylinder against which the piston performs relative movement only performs a reciprocating oscillating movement with respect to its location in the frame The shaft only performs a rotary movement. A further advantage follows from these facts, and that is, there is no sliding movement with respect to the frame in the mechanism of the sliding motor according to the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings show schematically exemplary embodiments of a sliding engine according to the invention used as an internal combustion engine. 1 is a front elevational view of a twin-cylinder engine; FIG. Fig. 2 is a diagram showing one cylinder of the slipper motor in a side view; 3 is a diagram of a twin-cylinder sliding-cylinder engine in a point-symmetrical configuration.

DETAILED DESCRIPTION OF THE INVENTION

1 and FIG. 2, the pins 2 are eccentrically coupled to the shaft 1 rotatable in the frame 16 so that the axes 10 of the pins 2 are parallel to the axis 11 of the shaft J. from the pins 2 a piston 3 is rotatably mounted movably reciprocatingly along the axis 13 in the cylinder 4 formed in the body 5 The holes 4 are provided in the cylinder 4 to allow relative movement of the pin 2 relative to the cylinder 4 in the immediate direction of the axis 13 of the cylinder 4. pivotally mounted by means of a bearing 8 in the frame 16 and, when the mechanism moves, performs a rocking reciprocating movement about the axis 9 of the bearing 8. A head 6 is attached to each cylinder 4, for example by means of screws (not shown). Between the piston 3, the body 5 and the head 6 there are working spaces 14 and 15 to which a working medium distribution (not shown) is connected. The power transmission in the internal combustion engine is carried out as follows. The gas pressure forces in the working spaces 14 and 15 acting on the piston 3 are transmitted to the pin 2. The resulting force acting on the pin 2 is transmitted to the shaft L

-3 Industrial Applicability

The sliding motor according to the invention is useful, for example, as an internal combustion engine, a hydraulic motor, a pneumatic motor, a pump or a compressor.

Claims (2)

PATENT CLAIMS A sliding-shaft motor comprising a shaft, a pin, a piston, a cylinder body, a camshaft (not shown) and engine accessories / characterized in that at least one shaft (1) rotatably mounted in the frame (16) has at least one axially coaxially connected at least one pin (2), wherein on each of the pins (2) the rotatably mounted piston (3) is displaceably mounted in a cylinder (4) formed in a body (5) rotatably supported by a bearing (8) in the frame (16) where ), a head (6) is attached, wherein between the piston (3), the body (5) and the head (6) there are working spaces (14) and (15) to which a working medium distribution (not shown) is connected. The sliding motor according to claim 1, characterized in that a cylinder (20) is formed in the body (5), closed by the head (21), the piston (19) being slidably mounted in the cylinder (20) and the piston (19). rotatably mounted on a pin (18) which is at least one end coaxially eccentric attached to the at least one shaft (17).