KR19980019737U - Oil cooling system - Google Patents

Abstract

The present invention requires a conventional oil cooler to install a separate oil cooling pipe on the outer wall of the engine or the cylinder side, and there is a problem that the power for applying a constant pressure to flow the oil is lost, the belt surface of the timing belt Fins are formed at regular intervals in the engine case, and the engine case has a predetermined amount of air inlet and air outlet on the camshaft side and the crankshaft side, and an air passage through which the air flows is formed at the lower part of the oil pan containing oil. By connecting a rubber hose between the air outlet and the inlet of the air passage, not only can the oil be naturally cooled so that no special oil pipe or power is applied, but also the air pressure is generated due to the inflow of air, so that a certain amount of inertial force is applied to the timing belt. This relates to an oil cooling system that is augmented.

Description

Oil cooling system

1 shows a current lubrication device.

2 is a view showing a conventional oil cooler,

(A) is a front view of an air cooled oil cooler,

(B) is sectional drawing of water-cooled oil cooler.

3 is a cross-sectional view of an oil cooling system according to the present invention.

4 is a cross-sectional view of the timing belt.

* Description of the symbols for the main parts of the drawings *

51: engine case 52: air inlet

53 air outlet 55 rubber hose

60: oil pan 61: air passage

71: camshaft sprocket 72: crankshaft sprocket

75: timing belt 75a: sprocket contact portion

75b: belt surface 75c: pin

The present invention relates to an oil cooling system, and more particularly, to an oil cooling system configured to generate air flow due to a pressure difference by forming a pin in a timing belt that transmits rotational force to a cam shaft, thereby naturally cooling the oil.

The lubrication device is a device for supplying the engine oil to the kinetic friction part so that the operation of the engine is smooth and the operation is maintained for a long time until the life of the engine.

The engine has parts that slide like cylinders and pistons, or parts that rotate like crankshafts and camshafts. When the kinetic friction part is in direct contact with metals, frictional heat is generated, and the friction surface becomes rough, which causes a failure such as rapid wear or pressing, which causes the engine to stop.

To prevent this, oil is injected into the friction surface of the metal to form an oil film therebetween, whereby the solid friction between the metals is changed to the fluid friction of the oil. Therefore, the frictional resistance is less, wear is less, the temperature rise due to the frictional heat is prevented.

There are several methods of lubricating engines, and four-cycle engines use scattering, feeding, and feeding scattering, but today, as the engine speeds up and the output increases, the feeding type is generally used. Pressurization is a method in which engine oil is placed in an oil pan where the oil pump is used to force oil into each lubrication part of the engine.

The pressurized lubrication apparatus includes an oil pan 1 for storing oil as shown in FIG. 1, an oil pump 2 positioned on one side of the oil pan 1 to pressurize the oil, and It consists of the hydraulic regulator 3 which adjusts a pressure, and the oil filter 4 which filters an oil. The oil passage is connected to an oil gallery (not shown) and an oil pipe (not shown), which are passages through which oil in an engine body (not shown) circulates.

The circulation path of the oil depends on the installation position of the oil filter 4, and there are a combination of current, fractionation, and combination of the two methods. Among them, the current type is a method in which all of the oil pumped by the oil pump 2 is filtered by the oil filter 4 and then supplied to each part. The oil is clean, but lubrication is performed when the oil filter 4 is blocked. Since the bypass valve 5 is installed so that the oil filter 4 is blocked, the oil is supplied to the engine parts without passing through the oil filter 4.

The oil loses its effect above a certain temperature, which needs to be cooled because the temperature rises due to engine heat. Preferably, the temperature of the oil does not exceed about 85 ° C., but when the temperature is about 125 ° C. or more, the lubricity is rapidly lost. Therefore, some institutions have installed oil coolers to maintain proper oil temperatures.

The oil cooler is divided into air cooling and water cooling according to the cooling method as shown in FIG. In the air-cooling method, as shown in FIG. 2A, fins 12 are installed on the outer wall 11 of an engine (not shown), and oil 13 flows through a pipe 13 between the fins 12. 12) is installed so that orthogonal to the outside air to cool the oil. Water-cooling is installed through the cooling water of the engine (not shown) by installing a pipe 23 through which oil flows in the cooling water pipe 22 installed on the side of the cylinder block (not shown) as shown in FIG. How to cool. At this time, the water-cooled oil cooler not only serves to cool, but also serves to raise the oil temperature to a suitable temperature when the oil temperature is lower than the appropriate temperature.

However, the conventional oil cooler has to install separate oil cooling pipes 13 and 23 in the outer wall 11 of the engine or the coolant pipe 22 on the cylinder side, and apply a constant pressure to allow the oil to flow. Therefore, there is a problem that power is lost.

The present invention has been devised to solve the above problems, the oil is configured to cool the oil naturally by the air flow due to the pressure difference by installing a pin on the timing belt for connecting the crankshaft and camshaft and transmitting power The purpose is to provide a cooling system.

The present invention for realizing the above object is a timing belt that is formed at a predetermined interval on the belt surface and transmits the power of the crankshaft to the camshaft, and an air inlet formed at a predetermined size on the camshaft side and the crankshaft side of the engine case. And an air outlet, an air passage formed to allow air to flow under the oil pan in which the oil is contained, and a rubber hose connecting the air outlet and the air passage inlet.

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

In the oil cooling system according to the present invention, as shown in FIG. 3, pins 75c are formed at predetermined intervals on the belt surface 75b to transfer power of a crankshaft (not shown) to a camshaft (not shown). Oil containing the timing belt 75, the air inlet 52 and the air outlet 53 formed in a predetermined size on the cam shaft (not shown) and the crank shaft (not shown) of the engine case 51, It consists of an air passage 61 formed to allow air to flow in the lower part of the fan 60, and a rubber hose 55 connecting between the air outlet 53 and the inlet of the air passage 61.

Of course, the sprocket contact portion 75a of the timing belt 75 is coupled to the sprockets 71 and 72 of the crankshaft (not shown) and the camshaft (not shown) to prevent slippage of the timing belt 75. It is supposed to be.

Referring to the operation and effect of the present invention configured as described above are as follows.

The crankshaft (not shown) is rotated to drive the camshaft (not shown) through the timing belt 75. At this time, since the negative pressure is generated by the pin 75c formed on the surface of the belt 75b of the timing belt 75, a pressure difference with the atmospheric pressure is generated, and air is introduced through the air inlet 52. The introduced air is compressed to a certain degree on the air outlet 53 side and then transmitted to the air passage 61 under the oil pan 60 through the rubber hose 55. The air transmitted through the rubber hose 55 passes through the air passage 61 and cools the oil at the upper portion thereof, and then exits through the outlet of the air passage 61.

As such, the oil cooling system according to the present invention not only cools the oil naturally without applying a special oil pipe or power, but also generates an air pressure due to the inflow of air, so that a certain amount of inertial force is increased in the timing belt. have.

Claims (1)

Timing belts having pins formed at regular intervals on the belt surface and transmitting power of the crankshaft to the camshaft, air inlets and air outlets having a predetermined size on the camshaft side and the crankshaft side of the engine case, and oil containing oil And an air passage formed to allow air to flow under the fan, and a rubber hose connecting the air outlet and the air passage inlet.