KR0139760Y1 - Coupling structure between piston and connecting rod - Google Patents

Abstract

Connecting the connecting rod 52 and the piston 51 with the piston pin 54 is difficult to assemble, which leads to a decrease in productivity as well as between the piston pin 54 and the piston 51 and the connecting rod 52. Since the noise is generated and all the force is applied to the piston pin 54, the piston 51 and the connecting rod 52 are connected to prevent the cylindrical piston pin 54 from being broken when the engine is overloaded. By connecting by direct connection means configured to transmit the explosive force of the piston 51 directly to the connecting rod 52 it is possible to simplify the assembly of the piston 51 and the connecting rod 52 and to prevent noise.

Description

Piston and connecting rod connection structure

1 is an exploded perspective view showing a piston and connecting rod connecting structure according to the present invention.

2 is an assembled cross-sectional view of FIG.

3 is a sectional view taken along the line A-A in FIG.

4 is an exploded perspective view illustrating a connection structure of a general automotive piston and a connecting rod.

* Explanation of symbols for main parts of the drawings

1: Jam rotating part 2: Hanging part

3: bolt 4: fixing member

The present invention relates to a piston and connecting rod connecting structure, and more particularly to a piston and connecting rod connecting structure that can minimize the noise as well as improve the assembly of the piston and the connecting rod.

In general, a car is composed of a body and a chassis, the chassis is composed of an engine, a power transmission device, a steering device, a suspension, etc., the body is wrapped around it and forms an outer surface.

Here, the engine is a part that substantially generates the power of the vehicle, but is roughly divided into an OHV (Over Head Valve) type and an OHC (Over Head Camshaft), but many engines of the OHC type are currently used.

The general configuration of the engine includes inserting a piston having a plurality of piston pins coupled to a plurality of combustion chambers formed inside the engine block and sealing it with a cylinder head, wherein the connecting rod is connected to a crank shaft. Is configured to be connected to transmit the explosive force of the combustion chamber to the drive wheel through the crankshaft.

Here, the piston and the connecting rod is inserted into the piston 51 and the piston 51 to which the plurality of piston rings 50 are coupled as shown in FIG. Connecting rod 52 is connected to the piston pin 54 through the coupling hole 53 formed in the piston 51 and the connecting rod 52.

That is, substantially the piston 51 and the connecting rod 52 is connected by the piston pin 54, the piston pin 54 is the reciprocating motion of the piston 51 and the connecting rod 52 It must be strong enough to overcome the pressure generated during rotation and reciprocation.

Of course, since a lot of friction occurs in the piston pin 54, the piston 51 and the connecting rod 52 in the combination of the piston pin 54, various methods have been developed to minimize the friction thereof. have.

However, as described above, connecting the connecting rod 52 and the piston 51 with the piston pin 54 is difficult to assemble, thereby reducing productivity, as well as the piston pin 54 and the piston 51 and the connecting rod. There is a problem that noise is generated between 52 and.

Moreover, since all the force is applied to the piston pin 54, when the engine is overloaded, the cylindrical piston pin 54 may be damaged.

Accordingly, an object of the present invention is to solve the above problems, and improves the assemblability of the piston and the connecting rod as well as connecting the piston and the connecting rod to minimize the noise generated from the piston and the connecting rod. In providing a structure.

In order to realize the above object, the present invention is characterized in that the piston and the connecting rod are connected by a direct connection means so that the explosive force of the piston is directly transmitted to the connecting rod.

Hereinafter, a detailed embodiment of the present invention with reference to the accompanying drawings.

1 and 2 are exploded perspective view and assembly cross-sectional view showing a piston and connecting rod connecting structure according to the present invention, the piston 51 and the connecting rod 52 is connected by a direct connection means piston 51 The explosive force of is configured to be transmitted directly to the connecting rod (52).

The direct connection means includes a circular locking rotary part 1 formed at one side of the connecting rod 52, that is, a part connected to the piston 51, and the piston 51 so as to correspond to the locking rotary part 1. In order to prevent the left and right flow of the locking portion (2) formed integrally with the inside, and the locking portion (2) and the locking rotation part (1), the bolt (3) on the locking portion (2) formed on the piston (51) It consists of two fixing members (4) that are coupled to).

Here, the engaging rotation part 1 is formed in a semi-circular shape by cutting a portion other than the connecting rod 52 part, and the engaging part 2 is inserted into the engaging part by sliding the engaging part 1 from the side to the outside. It is processed into a shape of semi-circle or more so that it can be caught inside without being separated.

That is, the inlet 5 is formed by D smaller than the radius of the locking rotary unit 1, and thus the locking rotary unit 1 cannot be separated outward.

When explaining the operation and effect of the present invention as described above, the connecting rod 52 is processed in the semi-circular shape of the locking rod (1) while sliding in the engaging portion (2) side of the piston 51 to engage.

At this time, the locking rotation part 1 is inserted into the locking part 2, but the horizontal movement is possible, but the vertical movement, that is, the separation in the reciprocating direction of the piston 51 is impossible.

After inserting the locking rotating part (1) to the locking part (2), the fixing member (4), which is separated into two, is coupled to the connecting rod (52) to fix it with the bolt (3) as shown in FIG. As described above, since the fixing member 4 surrounds the connecting rod 52 therebetween, the connecting rod 52 is not movable horizontally.

As described above, the engaging rotation part 1 of the connecting rod 52 and the engaging part 2 of the piston 51 are directly connected, and the reciprocating motion of the piston 51 and the rotational motion of the connecting rod 52 are made. The load is distributed to the connecting rod 52 and the piston 51, so that the rotating portion can be more smoothly moved.

Here, inserting a member or a lubricant capable of minimizing friction, such as an oilless bearing, between the engaging rotation part 1 and the engaging part 2 enables smooth movement and minimizes noise.

As described above, the present invention is advantageous in that the piston and the connecting rod are directly connected through a direct connection means to prevent noise and simplify the assembly to improve productivity.

Claims (2)

Piston 51 and the connecting rod 52 is connected by a direct connection means, the piston and the connecting rod connecting structure, characterized in that configured to transmit the explosive force of the piston 51 directly to the connecting rod (52). The method according to claim 1, wherein the direct connection means is formed on one side of the connecting rod 52, that is, the portion connected to the piston 51, and the circular locking and rotating portion 1 formed to minimize the rotational friction, It is formed integrally with the inside of the piston 51 to correspond to the locking rotation part 1 so that the locking rotation part 1 slides from the side and is not separated from the radius of the locking rotation part 1 so as not to be separated in the reciprocating direction of the piston 51. A locking portion 2 formed on the piston 51 to prevent the left and right flow when the locking portion 2 is formed as small as D and the locking portion 2 and the locking rotation portion 1 when the locking portion 2 is combined. Piston and connecting rod connecting structure, characterized in that consisting of two fixing members (4) coupled to the bolt (3).