DE102009003900A1 - Internal-combustion engine, has claws contacting with right edge of connecting rod near piston rod head and piston rod base and lying in surface, and plate whose width is lower than distance between counterweights of plate - Google Patents

Abstract

The engine has pistons moved back and forth in a cylinder (Z), where movement of the piston is converted into rotating movement of a crankshaft (9) by a connecting rod (6). An additional part (15) includes a clamp and a screw, where the additional part and the clamp comprise symmetrical claws. The claws contact with a right edge of the connecting rod near a piston rod head and a piston rod base, and lie in an appropriate surface. Width of a plate is lower than distance (N) between counterweights (12) of the plate.

Description

The Invention decreases the specific fuel consumption and decreases proportionally Quantity of the exhaust of the internal combustion engines, increases the Effectiveness of using his nominal numbers, improved its economic and ecological characteristics due to increase of the torque by realization the reserves of its crank mechanisms with the help of inertial forces from the additional parts to the right of the connecting rod. The technical solutions are also suitable for other piston engines.

State of the art

In traditional combustion engines in the beginning of the power stroke, when the pressure of the gases in the cylinder is maximum, the torque at crankshaft of this maximum force is zero, because doing so The connecting rod and the crank are on a single straight line. These losses reduce the effective pressure and accordingly the efficiency.

In the internal combustion engine according to file number 10 2007 027 202.4-13 substantially the above losses are reduced. For this he contains the additional part ( 6a ) right at the top of each connecting rod. At the exit of the piston from the top dead center in the beginning of the working stroke - with known very high acceleration - and its downward movement, the inertia force generated by the part ( 6a ) a torque acting counterclockwise on the connecting rod. Therefore, in the contact of the connecting rod with the crank, a force is generated which forms a torque with the clockwise direction. Such torques from the inertial forces arise at all strokes of the work of the engine and constitute a substantial increase to the torque at the crankshaft. It increases the effective pressure in the cylinder. The addition is quite a supplement to the optimization of the arrangement of the vectors of forces during operation of the engine and its efficiency quite increased. The effectiveness of the effect of inertial forces is determined by the magnitude of the moment. In addition, the losses will be reduced as a result of forced stabilization of the piston axis using the guide rail and the guide rail.

Object of the invention

aim The invention is therefore the creation of an internal combustion engine with increased economic and ecological Indicators by means of further optimization of size and arrangement of vectors of inertial forces in his crank shop with the possibility of simplicity the assembly of additional parts to the connecting rod.

The Goal is achieved by having each additional part on the connecting rod, which is the positive inertial forces forms, preferably filled with a U-shaped clamp iron; its outer surface becomes with the cylindrical surface coupled in the montage-warming game; its upper edge is located under the lower edge of the piston.

embodiment

The Invention will be described below with reference to the illustrated embodiments explained.

It demonstrate:

1 : The longitudinal section of an internal combustion engine with the additional parts to the right of the connecting rods under the pistons.

2 : The cross section AA according to 1 at the position 0 of the piston; the vectors of acceleration of the piston and inertial force of the additional part.

3 : The cross section BB according to 2 : the additional part is attached to the connecting rod; the outer surface of this part is coupled to the cylindrical surface.

4 : The cross section AA according to 1 : vectors of acceleration and inertial force at positions I, II of the piston; the torsional moment plane of the additional part in the placement of the crank in the quadrant Q.

5 : The cross section AA according to 1 at positions III, IV of the piston; the crank is in the quadrant P; Torsional moment plane of the additional part in the quadrants Q, P.

6 : The cross section AA according to 1 at the position V, of the piston - in the Untentatpunkt; the torsional moment plane of the additional part in the quadrants Q and P.

7 : The cross section AA according to 1 at position IV of the piston; the crank is in the quadrant R; Torsional moment plane of the additional part in the quadrants Q, P and R.

8th : The cross section AA according to 1 at the position V of the piston; the crank is in the quadrant S; Torsional moment plane of the additional part in the quadrants Q, P, R, S.

9 : Cyclogram torques of an internal combustion engine before and after modernization according to the invention.

The internal combustion engine consists of the Cylinder block ( 1 ) with the cylinders (Z), the cylinder head ( 2 ) and the oil pan ( 3 ). In the cylinders (Z) are the pistons ( 4 ) with the compression and oil stripping rings ( 5 ). The pistons ( 4 ) are with the help of the connecting rod ( 6 ) and the piston pin ( 7 ) with the cranks ( 8th ) of the crankshaft ( 9 ) connect. The crankshaft ( 9 ) runs in the warehouse ( 10 ) with the coverings ( 11 ). The crankshaft has the counterweights ( 12 ) and the flywheel ( 13 ).

At each connecting rod ( 6 ), an additional part ( 15 ) with the aid of a U-shaped clamp ( 16 ) and one of the screws ( 17 ) assembled. The part ( 15 ) preferably contains a plate ( 15a ) with the surface ( 15b ), which coincides with the cylinder (Z) during the movement of the piston ( 4 ) with the connecting rod ( 6 ) always coupled down. The width (M) of the plate ( 15a ) is smaller than the distance (N) between the counterweight ( 12 ). The part ( 15 ) and clamping arms ( 16 ) have the symmetrical between each other claws - ( 15c ) and ( 16a ), while the surfaces ( 15c ) and ( 16a ) always lie in a single area. The part ( 15 ) is preferably at the Kant of the connecting rod ( 6 ), while the upper edge of the plate ( 15a ) are located under the piston skirt.

The effect of inertial forces on the additional parts ( 15 ) on the right side of the connecting rod ( 6 ) can be seen on a typical internal combustion engine with real dimensions and parameters as an example: power P _e = 102 kW, speed n = 6100 l / min, torque M = 159 Nm;
l = 157 mm - the length of the connecting rod;
y = 60 mm - the distance between the center of gravity (T ₁ ) of the connecting rod ( 6 ) and the big end axle.
h = 3.2 mm - the distance between the own connecting rod axis with the center of gravity (T ₁ ) and the center of gravity (T ₃ ) of the connecting rod ( 6 ) with the additional parts ( 15 );
K - the distance between the center of gravity (T ₁ ) and the center of gravity (T ₂ ) of the additional part ( 15 );
m ₁₅ = 80 g - the mass of the additional part ( 15 );
m _Ps = 600 g - the own mass of the connecting rod.
M _Psz 600 + 80 = 680 g - the whole mass of the connecting rod ( 6 ) with the part ( 15 ).

For the analysis of the influence of inertial forces on the main parameter of an internal combustion engine is necessary in each quadrant - Q, P, R, S - the zone of the Turning the crank to determine these forces.

It is well known that an inertial force F _Tr = -am, where a - acceleration, m - mass. The sign (-) means that the vector of inertial force has the direction that always has against the guidance of the vector of acceleration.

According to the formula 13.8 from the book "Internal Combustion Engines" - Fundamentals, Process Theory, Construction "by Dr. med. A. Holiday - Springer-Verlag - 1995 s. 366 Acceleration of the piston a _k = dc / dt = dc / dφ × dφ / dt = rω ² (cosφ + λcos2φ),
where r = 0.043 m - the radius of the crank; λ = r / l = 0.043 / 0.157 = 0.275;
ω - angular velocity of the crankshaft;
φ - angle of rotation of the crankshaft.

The maximum speed n = 6100 l / min, ω = 638.5 rad / s

In position 0 at the beginning of the working stroke φ = 0.

The acceleration a _o = rω ² (1 + λ) = 0.0405 × 638.5 × ² (1 + 0.275) = 21051.7 m / s ² . She has her direction down.

The piston ( 4 ) moves during the stroke "working stroke" from top dead center downwards with this acceleration of the effect gas pressure. Together with that moves the connecting rod ( 6 ) with the summary mass 0,68 kg also with this acceleration. The inertial force of the connecting rod F _Tr0 = 0.68 × 21051.7 = 14315 N, which has its direction upwards and agrees with the center of gravity (T ₃ ) of the connecting rod ( 6 ). This force holds the connecting rod ( 6 ) in their absolute movement. You can use the connecting rod ( 6 ) look like a lever. This lever aims at effect of inertial force around piston pin ( 7 ) to turn against the clock and in the contact of the connecting rod with the crank ( 8th ) on the crankshaft ( 9 ) acts. Therefore, the torque M ₀ = F _Tr0 h = 14315 × 0.0032 = 45.81 Nm, which has the counterclockwise direction. During further movement of the piston ( 4 ) down the inertial force continues to act. This force is attached to the center of gravity (T ₃ ) and led upwards. Therefore, in contact of the big end with the crank ( 8th ) results in the force F _zus.0 = M ₀ / y = 45.81 / 0.06 = 763.5 N. This force forms a torque at the crankshaft ( 9 ) with the direction clockwise. Therefore in an exit of the piston is a complement to the main moment of the engine. This additional torque M _zus0 = F _zus0 × r = 763.5 × 0.043 = + 32.8 Nm. (+ 20.6%)

It means that at the beginning of a working stroke in any modernized according to invention internal combustion engine - in difference of all traditional engine - in the beginning of a working stroke inertial forces owing to assemblage of additional parts ( 15 ) right at the connecting rod ( 6 ) creates a significant torque.

In the quadrant Q, for example, at φ = 40 ° is the piston ( 4 ) in position I.

The acceleration a ₄₀ = rω ² (cosφ + λcos2φ) = 0.0405 × 638.5 ² × (cos40 ° + 0.275 × cos80 °) = 12647.6 m / s ² . She has the direction down. Therefore inertia force F _Tr.40 = 12647.6 × 0.68 = 8600 N. The torque at the connecting rod of this inertial force M _Tr.40 = F _Tr.40 · z / cosψ ₄₀ , where ψ - the angle of inclination of the connecting rod , M _Tr40 = 8600 x 0.0032 / 0.98 = 28.1 Nm.

The additional force F _zus40 = M _Tr.40 × cosα / y = 28.1 × 0.643 / 0.06 = 301 Nm; (α = 90 ° - 40 ° = 50 °).

The additional torque on the crankshaft M _zus40 = F _zus40 × r = 301 × 0.043 = + 12.9Nm (+ 8.1%). This torque also has the clockwise direction. It means that this torque is added to the main torque of the engine.

In the quadrant Q, when the angle between the connecting rod ( 6 ) and the crank ( 8th ) 90 ° (at φ = 74.6 °), the acceleration of the piston changes its direction to the opposite, the acceleration is zero and therefore the additional torque M _zus74,6 = 0.

In the quadrant Q and P, the magnitude of the acceleration increases from zero in the quadrant Q to the vertical position of the connecting rod (FIG. 6 ). At the same time the direction of the vector has the acceleration upwards. It means that the direction of the vector of the inertial force has down, that is, the inertial force forms a torque with the clockwise direction. For example, at φ = 140 ° the acceleration a ₁₄₀ = -11859 m / S ² and correspondingly the additional torque M _zus.140 = +10 Nm (+ 6.2%) with the direction also in the clockwise direction.

In position III is the piston ( 4 ) in Untatatpunkt. At an exit from which the vector of acceleration has the maximum negative size. a ₁₈₀ = -rω ² (1-λ) = -11970.6 m / s ² . The additional torque M _zus.180 = +15.8 Nm (+ 10%) with the direction in the clockwise direction.

In the quadrant R has the acceleration of their upward direction in the gradual reduction of their size. For example, in position IV of the piston at φ = 220 °, the acceleration a ₂₂₀ = 11405 m / s ² . Inertia force F _Tr.220 = 6843 N. Its moment M ₂₂₀ = 9.7 Nm. Additional torque to crankshaft M _add.220 = +10 Nm (+ 6.2%) After the transition of the crank ( 8th ) in the quadrant S the magnitude of the acceleration of the piston ( 4 ) and consequently the connecting rod ( 6 ), which is mirrored at the additional torque line. When φ = 287.6 °, when the connecting rod relative to the crank ( 8th is perpendicular, the acceleration a _287.6 = 0. As the _cranks turn further, the acceleration dips its direction, starting to increase in size. For example, acceleration a ₃₂₀ = 12647 m / s ² . The additional torque at the crankshaft, in the position V of the piston, M _zus.320 = +13.4 Nm (+ 8.4%). In the further rotation of the crankshaft ( 9 ) accelerate the acceleration and the piston in the initial position - position 0 with the additional torque M _zus.0 = +32.8 Nm (+ 20.6%) comes. The cycle is repeated.

The arrangement of the claws ( 15c ) 16a ) not far from the connecting rod end and the big end of the connecting rod practically lacking of the bending moment of the inertial forces on the connecting rod ( 6 ).

In traditional combustion engines in the quadrants R and S, the torque M _{R, S} = 0.

The Arrangement of the additional part on the right side of the connecting rod allows efficiency of work of the internal combustion engine because of the effect of inertial forces of the additional parts increased significantly.

there is useful in this modernization of the negative Influence of the allowance of the mass of the connecting rod from the additional ones Share. This allowance is due to a reduction in flywheel mass compensated.

The main functions of the flywheel are supplying the pistons to top dead center due to its together with the crankshaft inertia, as well as the uniformity of the rotation of the crankshaft. In the traditional engine, the mass of the flywheel at the torque in the beginning of the stroke "working stroke" M ₀ = 0.

In the modernized engine, the additional torques act on the inertial forces of the additional parts ( 15 ) at all bars, which reduces the mass of the flywheel. In addition, the fuel consumption and metal neck decrease as much as the amount of exhaust accordingly decreases as well. This increases the acceleration capacity of the engine.

• – Der Kraftstoffverbrauch und entsprechend die Quantität des Auspuffs wird reduziert.
• – Das Beschleunigungsvermögen erhöht sich durch die Erhöhung des effektiven Drucks.
• – Die Leichgängigkeit der Arbeit des Motors wird erhöht, die Geräusch sich sinkt.
• – Die ökologischen Eigenschaften des Verbrennungsmotors und anderen Kolbenmaschinen werden verbessert.
• – Die Möglichkeit der Modernisierung mit vermindertem Arbeitsaufwand der Motore, welche sich in Nutzung befinden.
• – Diese technische Lösungen sind taugliche auch für den Kompressoren und anderen Kolbenmaschinen,
• – die Erfindung lässt diese Modernisierung ohne Demontage den Baugruppen „Kolben-Pleuel” auszuführen, was wesentlich die Arbeit vereinfacht.
• – Die Erhöhung der Leistung an dem Verbrennungsmotor erhöht seine Effektivität, weil mit der Erhöhung der Drehzahl die Trägheitskräfte von den zusätzlichen Teilen (15) anwachsen.

This results in the following advantages:

• - The fuel consumption and accordingly the quantity of the exhaust is reduced.
• - The acceleration capacity increases by increasing the effective pressure.
• - Reliability of work of the engine is increased, noise decreases.
• - The ecological characteristics of the internal combustion engine and other piston engines are improved.
• - The possibility of modernization with reduced workload of the motors, which are in use.
• - These technical solutions are suitable too for the compressors and other piston engines,
• - The invention makes this modernization without dismantling the assemblies "piston connecting rod" execute, which significantly simplifies the work.
• - The increase in power to the internal combustion engine increases its efficiency, because with the increase in the speed of inertia of the additional parts ( 15 ) grow.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - "Internal Combustion Engines" - Fundamentals, Process Theory, Construction "by Dr. med. A. Holiday - Springer-Verlag - 1995 s. 366 [0022]

Claims (4)

Internal combustion engine having at least one piston reciprocated in a cylinder, the movement of which is converted by a connecting rod into a rotational movement of a crankshaft, with the additional part being on each connecting rod on the right, characterized in that each additional part ( 15 ) preferably a clamping iron ( 16 ) and a screw ( 17 ), the part ( 15 ) and the clamps ( 16 ) the symmetrical with respect to each other claws ( 15c ) 16a ) contain; the claws ( 15c ) 16a ) in pairs near the connecting rod and the connecting rod in the contacts with the right edge of the connecting rod ( 6 ), lie in the single surface; the width (M) of the plate ( 15a ) closer than the distance (N) between the counterweights ( 12 ); Internal combustion engine according to claim 1, characterized in that the surface ( 15b ) is preferably coupled to the cylinder surface during its occurrence in the quadrant Q, P with a mounting-warming clearance. Internal combustion engine according to one of claims 1 or 2, characterized in that the plate ( 15a ) preferably under the lower edge of the piston ( 4 ). Internal combustion engine according to one of claims 1 to 3, characterized in that the additional part ( 15 ) how to make a whole with the connecting rod you can.