RU2222705C2 - Internal combustion engine without connecting rods - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: invention can be used in internal combustion engines and piston machines. Proposed engine contains cylinders with housing accommodating sectional shaft including working crankshaft and eccentric bushings with eccentric journals arranged at opposite sides. Said eccentric journals are displaced through 1/4 of piston stroke from axis and rotate to different sides relative to crankshaft. Eccentric bushings with eccentric journals are provided with gear, diameter equal to 1/2 of piston stroke, engaging with crown gears secured in housing and having diameter equal to piston stroke. Piston rods are rigidly coupled with pistons and are articulated with eccentric bushings. According to invention, crankshaft is made solid and is provided with two opposite journals displaced in different sides from axis through 1/4 of piston stroke, and eccentric bushings with eccentric journal are installed on crankshaft journals through bearings. Gears of eccentric journals are rigidly secured from two of eccentric bushings. EFFECT: improved efficiency of machine. 4 cl, 11 dwg

Description

 The invention relates to internal combustion engines with a rodless mechanism for converting reciprocating pistons into rotational motion of the working shaft, in particular to four-stroke engines.

 A known internal combustion engine with a rodless mechanism (see a.a. USSR 118471, IPC F 01 B 9/02, publ. 1974), in which the mechanism comprises a rod rigidly connected to pistons, a crankshaft whose end necks can move along a circle with a radius equal to 1/4 of the piston stroke, cranks with central output shafts and a connected shaft with external gears fixing the relative position of the cranks relative to each other.

 In addition, a known internal combustion engine with a rodless mechanism (see AS USSR 1036945, IPC F 02 B 75/32, publ. 1983), comprising a piston with a cylinder, a crankcase in which a composite shaft made of two halves is placed and a crank connecting the halves and mounted in them on bearings at a radius of 1/4 of the piston stroke from the axis of the shaft, and a rod rigidly connected to the piston and articulated through the bearing with the crank, the crank rod head being placed in a fixed rail with the possibility of sliding along it, the guide is made in the form of sun bearings with a groove for the rod head, and the crankcase is equipped with a through window for insertion in it, and the working surfaces of the groove are equipped with plates of antifriction material.

 Of the whole set of known technical solutions, the closest prototype in terms of its totality of features and significance is an internal combustion engine with a rodless mechanism (see patent WO 92/17694, IPC F 02 B 75/32, IPC F 16 / H 21/30, publ. 15.10 .1992), in which cylinders with pistons are located in pairs from different sides of the piston, these pistons are rigidly interconnected by rods coupled through bearings with the necks of the crankshaft, the crankshaft has two necks located on the same axis. The necks located at different ends of the crankshaft are offset by 1/4 of the piston stroke from the axis of rotation of the crankshaft and protrude from different sides beyond the working shaft, where they are articulated through bearings with rods. In the rotating neck of the crankshaft there is a gear with a diameter of 1/2 of the piston stroke, which is connected to the ring gear with a diameter equal to the stroke of the piston, and the crankshaft is fixed through bearings with an offset of 1/4 of the piston stroke in the working shaft.

 The disadvantage of analogues and prototype is that the working shaft consists of two parts and is oriented between each other due to the unification shaft or grooves with overlays that are not rigid enough to orient the parts of the working shaft, which leads to increased vibrations of the parts of the mechanism and causes increased wear.

 An object of the invention is to reduce the overall dimensions while increasing the indicator power with improving the rigidity of the mechanism, increasing the life of the engine and its efficiency.

 This goal is achieved by the fact that in an internal combustion engine with a rodless mechanism containing cylinders with a housing in which a composite shaft is located, including a working crankshaft and eccentric bushings located on opposite sides of it, with eccentric journals that are offset from the axis by 1/4 of the piston stroke and rotate with the crankshaft in different directions, while the eccentric bushings with eccentric necks have gears with a diameter equal to 1/2 of the piston stroke, engaged with the crown gear fixed in the housing and having a diameter equal to the stroke of the piston, and the piston rods are rigidly connected with the pistons and articulated with eccentric bushings, according to the invention the crankshaft is made integral and has two opposing necks, shifted in different directions from the axis by 1/4 of the piston stroke, eccentric bushings with eccentric the necks are mounted on the necks of the crankshaft through the bearings, while the gears of the eccentric necks are rigidly fixed on both sides of the eccentric sleeve.

 This goal is also achieved by the fact that between the rods on the working crankshaft there may be a section with a gear rim of external gearing for power take-off.

 This goal is also achieved by the fact that part of the crown on the working crankshaft can be engaged with a gear having protruding rings with engine control cams.

 This goal is also achieved by the fact that in the planetary gear drive mechanism with gas distribution cams, there may be output shafts with bearings for the drives of the oil pump, coolant pump, generator, air conditioning compressor.

 The use of two crown gears and two planetary gears on each piston rod will reduce torsional loads, and will evenly distribute them to the gears and crankshaft journals. The use of two pistons on the same rod counteract the torque from the sliding friction of the rod bearing. It is possible to manufacture the crankshaft whole, then the eccentric sleeve is made detachable.

 The gas distribution ring gear can mesh up to four spurious gears of the drive, which have output shafts for the drives for their own needs of the engine; generator, oil pump, coolant pump, winch drive, air conditioning and others. The output shafts have twice the speed than the engine, which gives an advantage due to increased productivity. The overall dimensions and metal consumption of the drive mechanisms and components are reduced. It is possible to install a clutch with external gearing.

 The crankshaft rotates in one direction, and the gas distribution ring gear in the other. This gives an inertial balance, especially during moments of sudden changes in power or engine speed.

The essence of the proposed technical solution is illustrated by drawings, where
figure 1 presents a longitudinal section of an internal combustion engine with a rodless mechanism;
figure 2 is a section aa in figure 1;
figure 3 is a section bB in figure 1;
figure 4 is a section bb in figure 2, at the level of the output shaft of the power take-off;
figure 5 - gas distribution ring gear;
figure 6 - gas distribution ring gear, section GG in figure 5;
7 is a kinematic diagram of the engine;
on Fig - kinematic diagram of the engine, a section DD in Fig.7;
figure 9 is a kinematic diagram of the engine, a cross-section EE in figure 7, at the level of the power take-off shaft;
in FIG. 10 - a cycle of phased movement of the rodless mechanism of an internal combustion engine;
in FIG. 11 is a gas distribution diagram for one revolution of a motor shaft without leading angles.

 An internal combustion engine with a rodless mechanism comprises cylinders 1, which are fixed in the engine housing 3, are located opposite each other on different sides of the crankshaft 2 and opposite with a shift relative to the main axis of rotation. The crankshaft 2 is placed in the housing on bearings with necks located at different ends and opposite each other with respect to the main axis of rotation with an offset of 1/4 of the piston stroke, coinciding with different pairs of cylinders. The necks are located opposite. In the necks of the crankshaft mounted eccentric bushings 4 through the bearings. The crankshaft journals and the eccentric bush necks are offset from the center of the axis by 1/4 of the piston stroke. The eccentric sleeve 4 has gears 5 with a diameter of 1/2 of the piston stroke, fixed rigidly on both sides of the neck of the eccentric sleeve and engaged with ring gears 6 with a diameter equal to the stroke of the piston, which are fixed in the housing 3 along the main axis of rotation of the crankshaft.

 The rod 7 rigidly connects two pistons 8 in opposing cylinders. In the middle, the rod is connected through the bearing 9 to the neck of the eccentric sleeve 4, which has a diameter larger than the diameter of the cylinder; therefore, there are special grooves in the housing 3. power take-off 11, output shaft 12 - to the gearbox or other load.

 There is a gas distribution ring gear 13, which has four gas distribution rings with cams 14 with technologically dividing grooves and a fifth external gear gear 15 for engaging the engine from the starter. The gas distribution ring gear 13 with internal gearing teeth 16 is connected through the gear 17 to the gear 18, which is rigidly fixed to the crankshaft 2. The gas distribution ring gear 13 is fixed in the housing through bearings and rotates in the opposite direction, with a gear ratio 1/2 with decreasing from the crankshaft 2. The insertion gear 18 is engaged with the gear 17. An integral gear 19 for power take-off is also mounted on the shaft.

 Gears 17 transmit the rotation of the gas distribution ring gear 13 from the crankshaft 2. There are outputs for the drive from each gear 17 through the shafts 20 with an increase in the gear ratio 2/1 with respect to the crankshaft and a change in the direction of rotation.

 The device operates as follows. In order to increase the service life and efficiency, reduce overall dimensions, reduce vibrations and wear, the reciprocating movement of the pistons 8 is converted into rotational motion of the crankshaft 2. Gears 5 are engaged with ring gears 6 with a diameter equal to the stroke of the piston, installed symmetrically to the axis of the crankshaft 2 and fixed in the body rigidly, motionless. They set certain conditions for the implementation of the rodless mechanism.

 As shown in figures 3 and 10, the crankshaft rotates counterclockwise, and the eccentric sleeve 4 clockwise due to the planetary gear 5 and the ring gear 6.

 The eccentric sleeve 4 with the help of gear 5 rotates as a carrier with an axis offset of 1/4 of the piston stroke.

 Thus, due to the rotation of the crankshaft 2 and the eccentric sleeve 4 in different directions, they are folded up to the middle of the piston stroke I-II.

 Then they are laid out to the other end of the piston stroke II-III.

 And they fold back, scrolling around the axis of the crankshaft 2 also to the middle of III-IV.

 Then they are laid out to the other edge, and so each rod 7 moves back and forth IV-I.

 Thus, the eccentric sleeve 4 performs a circular motion in the opposite direction with an axis offset of 1/4 of the piston stroke, and the crankshaft 2 rotates in the other direction around the main axis with necks with an axis offset of 1/4 of the piston stroke.

 The gas distribution ring gear 13 rotates clockwise due to gears 17 that are connected to the gear 18 fixed to the crankshaft 2. Therefore, the crankshaft rotates counterclockwise and vice versa rotates the gas distribution ring gear 13 with a gear ratio 1/2 to crankshaft 2, as befits the camshafts of internal combustion engines.

 If we consider the gas distribution of a four-piston engine with opposing cylinders along the edges of the crankshaft, opposite the necks with the order of operation of the pistons or expansion chambers, I; II; III; IV, which are arranged as if in a circle (Fig. 7), then four gas distribution rings with cams 14 with dividing technological grooves are enough for complete gas distribution in valve mechanisms (see the gas distribution diagram of Fig. 11). Due to the opposition of the working chambers in the engine, one ring with a cam performs functions for two exhaust valves of opposite expansion chambers of the engine or for two suction valves of opposite expansion chambers at once.

Claims (4)

1. An internal combustion engine with conrod-free mechanism, comprising a cylinder housing in which is placed a composite shaft comprising a working crankshaft and disposed on opposite sides thereof eccentric sleeve with eccentric journals which are offset from the axis on the _^fourth stroke of the piston to the crankshaft and rotate in different sides, wherein the eccentric sleeve with eccentric journals have gears with a diameter equal to _^half the piston stroke, the engagement with the fixed ring gears in the housing, having a diameter equal to the course Porsche nya, and the piston rods are rigidly connected with the pistons and coupled to the eccentric bushing, characterized in that the crankshaft is made integral and has two opposing collar, offset at different sides of the axis at _^1/4 stroke, eccentric sleeve with eccentric journals mounted on the journals of the crankshaft through the bearings, while the gears of the eccentric necks are rigidly fixed on both sides of the eccentric sleeve. 2. The engine according to claim 1, characterized in that between the rods on the working crankshaft there is a section with a ring gear for external power take-off. 3. The engine according to any one of claims 1 and 2, characterized in that a part of the crown on the working crankshaft is engaged with a gear having protruding rings with engine control cams. 4. The engine according to any one of claims 1 to 3, characterized in that in the planetary gear mechanism of the gear with gas distribution cams there are output shafts with bearings for the drives of the oil pump, coolant pump, generator, air conditioning compressor.

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