KR100488549B1 - Piston cooling apparatus - Google Patents

Abstract

It is an object of the present invention to provide a piston cooling device using oil having a structure in which the cooling efficiency of the piston is greatly increased since there is no fear of interference with the piston since the oil jet is not used.

To this end, the present invention is an oil cooling gallery formed in the upper body of the piston;

An oil inflow passage formed to communicate with the oil cooling gallery from a side of a piston;

A guide groove formed vertically on an inner wall of the bore portion of the cylinder block;

A sliding oil jet which engages with the guide groove and moves up and down in association with a vertical movement of a piston;

An oil supply pipe connecting the oil jet and the oil inflow passage;

An oil chamber formed in a cylinder block to supply oil to the sliding oil jet;

An oil supply flexible hose connecting the oil chamber and the sliding oil jet; And

An oil drain passage formed in the piston to drain oil in the oil cooling gallery to an oil pan below the cylinder block;

Consists of

Description

Piston cooling apparatus

The present invention relates to a piston cooling device by oil.

The temperature of the combustion gas in the cylinder reaches over 2000 ° C, but not all of this heat is converted to power, and a considerable amount of heat is absorbed by the cylinder, the cylinder head, and the piston, resulting in heat loss. However, if the temperature of these parts rises excessively, the cylinder may be deformed or the oil film on the cylinder wall may be destroyed, resulting in poor lubrication or severe damage to the engine, resulting in poor combustion and knocking or premature ignition. As a result, the engine output is drastically lowered. Therefore, a cooling device is used to cool the engine to prevent overheating and keep it at an appropriate temperature.

As an apparatus for cooling an engine, a water cooling type for cooling a cylinder head and a cylinder block to circulate cooling water and receiving a high temperature is mainly used.

However, the piston reciprocating up and down in the cylinder has a problem that the cooling water circulated from the outside cannot contact, so that the piston cannot be directly cooled by the cooling water.

In order to solve this problem, in the conventional case, an oil jet is installed in the lower part of the cylinder block, and the piston is cooled by oil by forming an oil cooling gallery through which oil injected from the oil jet circulates in the piston.

However, in the case of the piston cooling method by oil jet, the manufacturing and assembly process is very difficult because the position of the oil jet and the inlet of the oil cooling gallery of the piston must be exactly matched. The jet of the jet and the piston may interfere with the piston, which may cause the piston to fail. In particular, at the top dead center position of the piston that is far from the oil jet, the supply of oil is uncertain and the cooling effect of the piston is reduced. There was this.

Accordingly, the present invention has been proposed in view of the above point, and its object is not to use an oil jet, so there is no fear of interference with the piston, and a piston cooling device using oil having a structure in which the cooling efficiency of the piston is greatly increased is provided. It is.

The present invention provides an oil cooling gallery formed in the upper body of the piston to achieve the above object;

An oil inflow passage formed to communicate with the oil cooling gallery from a side of a piston;

A guide groove formed vertically on an inner wall of the bore portion of the cylinder block;

A sliding oil jet which engages with the guide groove and moves up and down in association with a vertical movement of a piston;

An oil supply pipe connecting the oil jet and the oil inflow passage;

An oil chamber formed in a cylinder block to supply oil to the sliding oil jet;

An oil supply flexible hose connecting the oil chamber and the sliding oil jet; And

An oil drain passage formed in the piston to drain oil in the oil cooling gallery to an oil pan below the cylinder block;

Consists of

Hereinafter, the configuration of the present invention will be described with reference to the accompanying drawings.

1 is a view showing a piston cooling device with oil of the present invention, Figure 2 is a cross-sectional view A-A of FIG.

In the drawing, reference numeral 1 denotes a piston, and reference numeral 2 denotes a cylinder block 2 for guiding the reciprocating motion of the piston 1.

In the upper body of the piston (1), that is, in the body adjacent to the piston land portion (3), an oil cooling gallery (4) is formed in an annular space, and the oil cooling gallery (4) is the piston land portion (3). It is connected in horizontal communication with the oil inflow passage 5 formed through.

The bore inner wall surface 6 of the cylinder block 2 is formed with a guide groove 7 having a dovetail shape (trapezoidal shape) in the vertical direction, and the guide groove 7 is installed on the thrust or anti-trust surface. It is desirable to.

A sliding oil jet 8 is engaged with the guide recess 7 so as to slidably move up and down with the vertical movement of the piston 1, and the oil jet 8 supplies an oil supply pipe 9 for supplying oil. Is connected to the oil inflow passage (5) through.

In addition, an oil chamber 10 is formed in the cylinder block 2, and the oil chamber 10 is supplied with oil pumped from an oil pump.

The oil chamber 10 and the oil jet 8 are connected by a flexible hose 11.

Reference numeral 12 in the figure denotes an oil drain passage for draining oil in the oil cooling gallery 4 to an oil pan.

In addition, reference numeral 13 in the drawing is a one-way valve composed of a ball 14 and a spring 15 to regulate the oil so that the oil flows only from the oil chamber 10 toward the oil jet 8.

Referring to the cooling process of the piston 1 according to the present invention as described above is as follows.

When the piston (1) is driven by the engine to move up and down, the oil jet (8) of the sliding movable chain connected to the oil supply pipe (9) also moves up and down along the guide groove (7), and at the same time the oil pump The oil supplied from the oil chamber (10), the flexible hose (11), the oil jet (8), the oil supply pipe (9) and the oil inlet passage (5) reaches the oil cooling gallery (4) and annularly announces the piston (1) After circulating and cooling the body, the oil is dropped through the oil passage 12 to return to the oil pan.

The present invention as described above omits the installation of the fixed oil jet in the lower cylinder block, and installs the oil jet to move up and down along the guide groove of the inner wall of the cylinder, the oil jet is connected to the oil cooling gallery of the piston as a pipe After interlocking with the piston, connect the oil chamber formed in the cylinder block with the flexible hose, and the moving chain oil jet moves up and down with the piston, supplying the cooling oil into the piston body. Since the effect is enhanced and the precision of the oil jet and the assembly and mounting work of the complicated structure is not required, the cost can be reduced.

1 is a view showing a piston cooling device according to the present invention

2 is A-A section of the in-phase piston chiller

3 is a view showing a one-way valve of the present invention

※ Explanation of codes for main parts of drawing

1: Piston 2: Cylinder Block

3: piston land part 4: oil cooling gallery

5: oil inflow passage 6: bore inner wall surface

7: guide groove 8: oil jet

9: Oil supply pipe 10: Oil chamber

11: Flexible hose 12: Oil drain passage

13: one-way valve

Claims (4)

An oil cooling gallery formed in the upper body of the piston; An oil inflow passage formed to communicate with the oil cooling gallery from a side of a piston; A guide groove formed vertically on an inner wall of the bore portion of the cylinder block; A sliding oil jet which engages with the guide groove and moves up and down in association with a vertical movement of a piston; An oil supply pipe connecting the oil jet and the oil inflow passage; An oil chamber formed in a cylinder block to supply oil to the sliding oil jet; An oil supply flexible hose connecting the oil chamber and the sliding oil jet; And An oil drain passage formed in the piston to drain oil in the oil cooling gallery to an oil pan below the cylinder block; Piston chiller, characterized in that consisting of. The method of claim 1, The guide groove and the oil jet is a piston cooling device, characterized in that the dovetail shape. The method of claim 2, The guide groove is a piston cooling device, characterized in that formed on the thrust or anti-trust side of the piston. The method of claim 1, The oil chamber is a piston cooling device, characterized in that the one-way valve is installed to allow only the movement of oil toward the oil jet.