KR20120088107A - The improve method and the equipment for the efficiency of internal combustion engine - Google Patents

Abstract

PURPOSE: A method and a device for improving the efficiency of an internal combustion engine are provided to optimize the efficiency by reducing a size of a suction port such that suction resistance is reduced. CONSTITUTION: A method for improving the efficiency of an internal combustion engine is as follows. A variable link(7) is installed between a load shaft(3) and a cylinder(1) such that a reciprocating action of the cylinder is slowly processed in an expansion stroke comparing to a compression stroke. A ratio of a rotary speed of one shaft to the other shaft is changed in one cycle. Suction resistance is reduced, and thermal efficiency increases by reducing a size of a suction port.

Description

The improvement method and the equipment for the efficiency of internal combustion engine

In the present invention, the ideal cycle, such as in the carnocycle of a PV line, which is a thermodynamic reversible cycle for calculating the maximum thermal efficiency of a heat engine, is a perfect thermal insulation change due to the combustion time of fuel, friction, or heat conduction. Since it is not possible to realize isothermal change, the need for improvement of an internal combustion engine with ideal efficiency is required. Therefore, the combustion time of the fuel is reduced by slowing the expansion process in comparison with the compression process in the administrative cycle of the internal combustion engine. The purpose of the present invention is to provide a method for improving the efficiency of an internal combustion engine by varying the compression and expansion speed by lengthening and then inducing the expansion to occur.

Conventional internal combustion engines (reciprocating engines, rotary engines) are a compression and expansion process at the same time or the same speed with respect to a constantly rotating shaft, the operation process of the internal combustion engine is suction → compression → expansion (explosion) Ignition is usually generated at the boundary between compression and expansion, and the power of the internal combustion engine is the fuel is ignited during the compression process, the fuel of polymer is combined with oxygen and decomposed, and the number of molecules of gas increases. As a result, the temperature inside the combustion chamber is increased.

The elevated temperature increases the pressure of the gas, and the pressure in the combustion chamber increases due to the increase of gas molecules as the fuel burns, and when the expanded pressure of the gas expands insulated to the outside, it is converted into kinetic energy. The kinetic energy generated in this way becomes a power engine.

Therefore, internal combustion engine refers to all power engines that have intake, compression, expansion, and exhaust processes. In an internal combustion engine, which is thermally insulated from the outside, the internal combustion engine is completely burned under maximum compression in the process of compression → combustion → expansion. The maximum efficiency can be obtained when the pressure is expanded at, but in reality, the engine continues to rotate, so the expansion continues even when the combustion occurs during compression, and the expansion process is considerably after the actual fuel is completely burned.

This decreases efficiency due to the expansion of incomplete combustion between ignition and complete combustion, and causes the same problem because the same stroke occurs at the same time and at the same place not only in the 4-cylinder cycle engine but also in the 2-cylinder reciprocating piston internal combustion engine. In addition, if the compression ratio is increased to improve this and improve the efficiency, the performance of horsepower or fuel consumption is improved, but there is a problem that the mechanical loss is increased.

The present invention has been made to solve the above problems, link the device that can deliver a specially designed rotational speed between the two rotation shafts of the load shaft and the crank shaft of the cylinder at inconstant velocity so that the efficiency of the internal combustion engine close to the full adiabatic expansion This allows the ratio of the rotational speed of the opposite axis to the rotational speed of one rotational axis to be changed periodically and in a cycle, so that the suction time is increased compared to the exhaust time, thereby reducing the suction resistance and reducing the area of the suction port. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings for the purpose of providing a method and an apparatus for improving the efficiency of the internal combustion engine to double the thermal efficiency as follows.

The present invention provides a variable link between the two shafts of the load shaft and the crankshaft of the cylinder so that the volume of the combustion chamber progresses slowly in the expansion stroke process as compared to the compression stroke process. Internal combustion to reduce the suction resistance, reduce the area of the suction port and double the thermal efficiency at the same time so that the ratio of the rotational speed of the opposite axis to the rotational speed of one of the rotational shafts is not constant within one cycle. It is about a method for improving the efficiency of an engine.

In addition, the present invention is not a constant rotation angle of the link connected between the flywheel or the load side of the load and the two rotation shafts of the crankshaft, the piston at a wide angle during suction or explosion (expansion) moving from the top dead center to the bottom dead center. In the case of the compression or exhaust moving from the bottom dead center to the top dead center, the load side is eccentrically positioned from the center of the crankshaft so as to be rotated at a narrow angle so as to be close to full adiabatic expansion. The apparatus for improving the efficiency of the internal combustion engine, characterized in that the variable link is connected to the variable length of the cylinder is connected.

According to the present invention, by realizing such a full adiabatic expansion condition of the internal combustion engine, not only can the efficiency of the internal combustion engine be increased, but also the suction resistance is reduced, the area of the inlet is reduced, and the thermal efficiency is doubled, thereby optimizing the efficiency improvement of the internal combustion engine. It is.

As described above, the present invention has been described in detail only with respect to the described embodiments, but it will be apparent to those skilled in the art that various modifications and applications are possible within the technical scope of the present invention, and such modifications and applications belong to the appended claims. will be.

1 is an exemplary view showing a structure of an inconstant speed rotation transmission device according to the present invention
Figure 2a is a reference diagram showing the rotation angle of the rod during the suction stroke and compression stroke of the cylinder
Figure 2b is a reference diagram showing the rotation angle of the rod during the explosion stroke and exhaust stroke of the cylinder
Figure 3 is an embodiment showing the explosion order of the four-cylinder cycle engine according to the present invention
Figure 4 is a graph of the volume change inside the cylinder according to the time change of the conventional internal combustion engine
Figure 5 is a graph of the volume change inside the cylinder according to the time change according to the present invention
Figure 6a is a front sectional view of the application of the four-cylinder cycle engine consisting of a variable rod
Figure 6b is a cross-sectional view of the application of the four-cylinder cycle engine consisting of a variable rod
Figure 7a is an enlarged perspective view of the main portion showing the present invention variable link
Figure 7b is a cross-sectional view of the main portion of the present invention variable link.

The present invention will be described in more detail with reference to the accompanying drawings.

In an internal combustion engine, a variable link is installed on a connecting rod connected to a piston to slow the falling speed of the connecting rod so that the rotation angle can be changed between two rotation shafts of the crank shaft and the load shaft. This allows the expansion to proceed slowly compared to the compression to sufficiently combust the combustion, and then to increase the efficiency by the expansion stroke is made at the maximum pressure.

That is, looking at the configuration of the present invention.

A load shaft 3 which is a part of the crankshaft 5 is connected to the crankshaft 5 by connecting the crankshaft 5 to the connecting rod 2 which is operated up and down by the piston 6 installed inside the cylinder 1 constituting the internal combustion engine. It is made by installing a variable link (7) in which the length adjustment is variable.

In the embodiment of the present invention, the four-cylinder internal combustion engine is provided with a variable link (7) is a variable link on the left in the first cylinder, the right in the second cylinder, the left in the third cylinder, the right in the fourth cylinder respectively. It is preferable.

The variable link 7 forms a fastening hole at an upper end of the fixed link 8 fixed to the crankshaft 5, and inserts a flow link 9 fixed to the connecting rod 2 into the fastening hole. By fastening, the fixed link is to allow the flow link to extend or shrink in length by sliding.

It is apparent that the preferred embodiment of the present invention can achieve the same effect as the present invention by using a general double link instead of a variable link.

Referring to the operation of the present invention as described above is as follows.

In an internal combustion engine having a cycle as shown in FIG. 4, which shows a graph of a volume change in a cylinder according to a time change of a conventional internal combustion engine, the time from the ignition t3 to the time t 'of most gas combustion (t3-) t ') is required.

However, in order to obtain the maximum efficiency in the internal combustion engine, the mixer must be completely burned and then expanded to the maximum pressure in the state of compression, combustion and expansion in the state of thermally insulated from the outside. 3-4 process).

In reality, however, since the engine continues to rotate, it continues to expand in the course of combustion during compression, which occurs after a significant expansion when the actual fuel is completely burned.

Therefore, the efficiency is reduced because the expansion due to incomplete combustion between the ignition and the complete combustion (3-4 'process of Table 1) in the periodic motion as shown in Figure 4, the present invention is [FIG. 2 As shown in the figure, by varying the rotation angle between the two rotation shafts of the crankshaft and the load shaft, the variable link is connected to slow down the falling speed of the connecting rod connected to the piston, and the volume of the combustion chamber of the internal combustion engine 5], and the expansion is made slowly due to the difference in the rotational speed by the variable link to make the combustion relatively sufficiently, and then the expansion stroke is made at the maximum pressure to increase the efficiency.

In the method of improving the efficiency of an internal combustion engine with different compression and expansion speeds according to the present invention, a method of interlocking organically coupled to a piston, a connecting rod, and a crankshaft of a cylinder and causing a volume change over time in the cylinder is linked only with a variable link. But it can be implemented in the same way as a pulley as well as a double link or elliptical gear formed by combining two layers.

This method can be applied not only to the reciprocating piston internal combustion engine or the rotary engine but also to all internal combustion engines having a process of suction → compression → expansion → exhaust.

[Table 1] shows the PV diagram of the internal combustion engine. In the figure, the ignition occurs near the position 3 and the ideal process of energy efficiency shows the maximum efficiency when the process is 3 → 4. In general, the process of 3 → 4 'is shown. In the case of applying the present invention, a process of 3 → 4 ″ which is intermediate between an ideal case and a general case is performed.

As a result, in Table 1, the inconstant rotation ratio transmission method can obtain more power by the hatched area A of Table 1 than in the general case.

In an internal combustion engine, this speeds up the explosive stroke process, in which the piston descends, the exhaust valve closes, the intake valve opens, the intake stroke in which the mixer inhales into the cylinder, or the end of the compression stroke and the ignition and explosion of the mixer as the mixer ignites and explodes. In other words, the compression of the mixer is compressed when the piston rises and the intake valve is closed, or the piston rises and the exhaust valve is opened. Or, to adjust the operating state, the movement of the rotating shaft to rotate constantly, but the graph of the volume change over time as shown in Figure 4, but using a variable link according to the present invention By time elapsed, that is, rotational motion [Fig. 5] It is distorted as shown.

By using a rod having such a variable link, by varying the compression time and expansion time or the compression speed and expansion speed according to the rotational force, it is possible to improve the efficiency or to change the operating characteristics.

Therefore, by rotating the crankshaft variablely, the rotation angle of the compression stroke of the internal combustion engine using the rod transmitted at different rotation speeds and angles is narrowed, and the rotation angle of the suction stroke is widened, which reduces the suction resistance and reduces the area of the suction port. At the same time, thermal efficiency can be doubled.

"와 같이 회전하게 되며, 반대로 제2b도는 실린더의 폭발, 팽창, 배기시에 로드의 회전각을 보인 참고도를 보면 상사점에서 하사점으로 피스톤(6)이 이동함에 따라 크랭크축(5)은 역시 180도를 회전하게 되나 이때, 부하축(3)에 걸리는 가변링크(7)는 상사점의 위치로부터 하사점의 위치에 도달할 때까지의 회전각도가 "

"와 같이 됨으로써, 압축과 배기 지속시간이 흡입이나 폭발에 비해 상대적으로 짧아지고(회전각이 좁기 때문) 따라서 흡입과 폭발은 상대적으로 느리게 진행될 수 있게 되는 것이다.2A is a reference diagram showing the rotation angle of the rod during the suction stroke and the compression stroke of the cylinder. As shown in the drawing, the connecting rod 2 is formed by the reciprocating motion of the piston 6 from the bottom dead center to the top dead center during the compression process. As the crank shaft 5 rotates 180 degrees, the variable link 7 applied to the load shaft 3 has a rotation angle from the position of the bottom dead center to the position of the top dead center.

2B is a reference diagram showing the rotation angle of the rod during the explosion, expansion, and exhaust of the cylinder, the crank shaft 5 is moved as the piston 6 moves from the top dead center to the bottom dead center. Also rotates 180 degrees, but at this time, the variable link (7) applied to the load shaft 3 has a rotation angle from the position of the top dead center to the position of the bottom dead center.

By doing so, the compression and exhaust durations are relatively short compared to inhalation or explosion (because the rotation angle is narrow), so that inhalation and explosion can proceed relatively slowly.

3 is an embodiment showing the explosion sequence of the four-cylinder cycle engine according to the present invention, the method and the apparatus for the constant speed rotation transmission used in the internal combustion engine according to the present invention can be applied to the four-cylinder cycle engine, the explosion at this time As shown in the figure, it explodes in the order of ① → ③ → ② → ④ and can utilize the same characteristics as the conventional four-cylinder engine.

In addition, the device for transmitting the rotation angle at an inconstant speed, such as the variable link described in the above embodiments, the variable link 7 can be used as an eccentric gear, an elliptical gear, a pulley, etc. The variable link 7 may be configured to vary the length of the link connected between the load shaft 3 and the crank shaft during rotation of the crank shaft 5 according to the linear reciprocating motion of the piston 6. The structure of the link 7 is as shown in Fig. 2a a reference diagram showing the rotation angle of the rod in the intake stroke and compression stroke of the cylinder and in Fig. 2b a reference diagram showing the rotation angle of the rod in the explosion stroke and exhaust stroke of the cylinder.

FIG. 6A is a sectional view of an application of a four-cylinder cycle engine composed of variable rods, and FIG. 6B is a sectional view of an application of a four-cylinder cycle engine composed of variable rods, and FIGS. 7A and 7B show a variable link.

On the other hand, when a double link is installed between the connecting rod 2 and the crankshaft 5 instead of the variable link 7, that is, since a double link is installed between the connecting rod 2 and the crankshaft, the connecting rod 2 and the crankshaft are doubled. Since the crankshaft is operated when the link is folded, it is operated in the same manner as the variable link 7.

1. Cylinder 2. Connecting Rod 3. Load Shaft
5. Crankshaft 6. Piston 7. Variable Link
8. Fixed link 9. Floating link

Claims (3)

The variable link is installed between the two shafts of the load shaft and the crankshaft of the cylinder so that the volume of the combustion chamber is slower than the compression stroke process. The ratio of the rotational speed of the opposite shaft to the rotational speed of one rotary shaft in one cycle is not constant and changes periodically so that the efficiency of the internal combustion engine is reduced so that the suction resistance can be reduced, the area of the suction port can be reduced, and the thermal efficiency can be doubled. How to improve. The angle of rotation of the link between the flywheel or the load side on which the load is applied and the two rotational axes of the crankshaft is not constant, and the suction angle or the explosion (expansion) when the piston moves from the top dead center to the bottom dead center is at a lower angle from the bottom dead center. For compression or exhaust moving to top dead center, the load side is eccentrically positioned from the center of the crankshaft to one side to rotate at a narrow angle to approximate full adiabatic expansion:
Apparatus for improving the efficiency of the internal combustion engine, characterized in that the variable cylinder is connected between the two rotating shafts and the variable link is changed in length. The internal combustion engine according to claim 2, wherein in the case of a four-cylinder internal combustion engine, a variable link is provided on the left side of the first engine and on the right of the second engine, and on the left of the fourth engine on the right. Device for improving the efficiency of the.

Images