RU2411382C2 - Internal combustion engine - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: internal combustion engine consists of fixed cylinders 1 located in the form of V with pistons 2 and piston-rods 3, distribution shaft 4 with cams 5, piston unloading mechanism under action of lateral forces in cylinder-and-piston group, made in the form of straight shaft 6 with freewheel clutch installed on it on one of the ends of outer cage 8 to which there rigidly attached is gear wheel kinematically connected to piston-rod 3 the contact surface of which is made in the form of gear rack, and to the other end of outer cage 8 there attached is conical tooth gear connected through conical pair to the similar conical gear wheel of outer cage of freewheel clutch of the other pair of V-located cylinders. Distribution shaft 4 is kinematically connected to intermediate shaft on which there installed is freewheel clutch the outer cage of which is also made in the form of gear wheel and is engaged with gear wheel 9. Straight shaft 6 is rigidly attached to inner cage 18 of freewheel clutches.

EFFECT: reducing mechanical losses by reducing the actions of lateral loads in cylinder-and-piston group and improving operating characteristics.

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Description

The invention relates to the field of engineering, in particular to reciprocating machines (such as 4-stroke internal combustion engines).

A known internal combustion engine containing a stationary cylinder, a piston with a connecting rod, a camshaft with cams driving inlet and exhaust valves, a crankshaft connected to the connecting rod by a piston unloading mechanism from lateral forces [1].

However, the disadvantage of this device is the presence of an expensive and difficult to manufacture crankshaft having low rigidity and unbalanced mass. In addition, lateral force arises in the pistons of such devices, increasing wear on the piston seal and cylinder walls, while increasing mechanical losses.

It is also known that in the internal combustion engine, couplings with pistons in the form of a rack and pinion gear [2] and a piston synchronization mechanism in the form of a bevel gear [3].

However, the disadvantage of these devices is that the connection of the camshaft with the intermediate shaft equipped with freewheels leads to deterioration of the engine up to its stop due to the absence of a rigid dependence in the mechanism between the position of the piston and the position of the gas distribution valves (turning the camshaft).

In addition, there is a known internal combustion engine containing V-shaped cylinders with pistons placed in them, connected with freewheels, located on the output shaft, with the possibility of its unidirectional rotation [4].

However, this device also has the disadvantage of large mechanical losses due to the impact of lateral loads.

The technical result of the invention is expressed in the reduction of mechanical losses by reducing the effects of lateral loads in the cylinder-piston group and in increasing the operational characteristics.

This goal is achieved by the fact that in an internal combustion engine containing V-shaped cylinders placed with pistons connected to freewheels located on the output shaft, with the possibility of unidirectional rotation. The coupling of the freewheel with the pistons is made in the form of a rack-and-pinion gear, the engine camshaft is kinematically connected with the intermediate shaft equipped with freewheels, and the piston synchronization mechanism is made in the form of a bevel gear combined with freewheels.

Figure 1 shows the internal combustion engine, a cross section, and figure 2 is a section along aa in figure 1.

The internal combustion engine consists of fixed V-shaped cylinders 1 with pistons 2 and connecting rods 3, a camshaft 4 with cams 5, a piston unloading mechanism from the action of lateral forces in the piston-cylinder group, made in the form of a straight shaft 6 with a free clutch mounted on it the stroke 7 at one end of the outer race 8, to which the gear 9 is rigidly attached, kinematically connected to the connecting rod 3, the contact surface of which is made in the form of a gear rack, and to the other end of the outer race 8 a bevel gear bevel gear 10 connected through a bevel pair 11 with the same bevel gear 12 of the outer race of the freewheel clutch 13 of another pair of V-shaped cylinders 14 is replicated.

The camshaft 4 is kinematically connected with the intermediate shaft 15, on which the freewheel clutch 16 is mounted, the outer race of which is also made in the form of a gear wheel 17 and is engaged with the gear wheel 9. The straight shaft 6 is rigidly connected with the inner race 18 of the freewheel 7 and 13. The cylinders 1 and 14 are equipped with valves 19 and 20, and the straight shaft 6 is equipped with a flywheel 21, which ensures its uniform rotation.

The internal combustion engine operates as follows

When the piston 2 of one of the cylinders 1 moves from the top dead center to the bottom dead center through the connecting rod 3, the movement is transmitted to the outer race 8 of the freewheel 7, which rotates the straight shaft 6 through the inner race 18, while in the other V-shaped cylinder 14 the piston moves from bottom dead center to top dead center. At the same time, the outer cage of the freewheel 13 receives rotational motion through the conical pair 11, but this motion is not transmitted to the direct shaft 6, since the freewheel 13 operates in the slip mode, providing unidirectional movement of the straight shaft.

At the next point in time, one of the pistons in the V-shaped cylinders 14 through the connecting rod 3 will rotate the outer race of the freewheel 13 in the opposite direction, and its inner race will rotate the straight shaft 6 in the same direction as in the first case of the freewheel 7, which at this moment will operate in slippage mode. So the reciprocating motion of the pistons is converted into a continuous unidirectional rotational movement of the straight shaft 6.

In exactly the same way, continuous unidirectional rotational movement is received by the intermediate shaft 15, which, in turn, drives the camshaft 4.

The uniformity of rotation of the straight shaft 6 is provided by the flywheel 21.

The proposed design of an internal combustion engine has significant advantages compared with the known, having a crank-slide mechanism. This is because the proposed device due to a significant reduction in inertia due to the exclusion of unbalanced masses eliminates additional dynamic loads on the pistons. In addition, the strictly rectilinear movement of the pistons and connecting rods in the cylinders excludes the reaction forces of the stationary guides - the cylinder walls to the pistons, i.e. the effect of lateral loads.

Such an engine does not have ("dead") extreme positions, such as an engine with a crankshaft, when the connecting rod is superimposed or is a continuation of the crank in a straight line, and the torque from the driving force is not transmitted to the straight shaft, which excludes vibrations and vibrations of engine parts and the whole machines, which affects a significant increase in engine efficiency.

Thus, the proposed design of the discharge mechanism of the internal combustion engine allows to relieve the piston from the action of lateral forces and, thereby, increase the service life of the piston seal, reduce the mass and dimensions of the moving parts, reduce the share of mechanical losses, and also eliminate the expensive and difficult to manufacture crankshaft having low rigidity, and thereby simplifies the manufacturing technology of the engine.

Information sources

1. Copyright certificate No. 1121470, cl. F02B 75/32, 1984

2. England patent No. 1489092, cl. F1B 1977

3. US patent No. 3945359, CL. F02B 75/26, 1978

4. US patent No. 3943894, CL. F02B 75/26, 1975 - prototype.

Claims (1)

An internal combustion engine comprising V-shaped cylinders with pistons disposed therein connected to freewheels located on the output shaft with the possibility of unidirectional rotation, characterized in that the freewheel coupling with the pistons is in the form of gear-rack gearing, the engine camshaft is kinematically connected with an intermediate shaft equipped with freewheels, and the piston synchronization mechanism is made in the form of a bevel gear, with displacements with freewheel.

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