KR20040003611A - Oil level control assembly for M/T - Google Patents

Abstract

PURPOSE: Oil level control structure of a manual transmission is provided to improve lubricating performance of the transmission and prevent lowering in the durability of parts by smoothly maintaining oil supply although a manual transmission vehicle runs on a slope way. CONSTITUTION: A transmission case and an extension housing are partitioned by an intermediate plate(50). In oil level control structure of a manual transmission, a pair of valve devices(60), operating in each different direction, are installed to the intermediate plate, to control the flowing of oil, in traveling on a slope way. The valve device comprises a valve body(61) inserted in an oil hole(51) in the intermediate plate, to move forward and backward; a return spring rebounding the valve body; a washer(63) supporting the other end of the return spring; and a snap ring(64) inserted in a groove formed at the end of a stem(61b) of the valve body, to prevent separation of the washer. The return spring is externally inserted into the valve body and one end of the return spring touches with the intermediate plate. The washer is inserted into the valve body.

Description

Oil level control assembly for M / T}

The present invention relates to a device for adjusting the oil level so that the oil is not biased toward the front or rear of the manual transmission when the vehicle equipped with the manual transmission is driving on a slope, in particular, when the oil level of one side is more than a certain level. It is related to the oil level control structure of the manual transmission so that only the flow of oil is generated so that extreme oil bias can be eliminated when driving on a slope.

In general, the case of the manual transmission includes a transmission case 11 installed at the front side of the vehicle as shown in FIG. 1, an extension housing 12 coupled to the transmission case 11 and corresponding to the rear side of the vehicle. The intermediate plate 13 is disposed between the transmission case 11 and the extension housing 12 to partition the two.

The intermediate plate 13 partitions the inside of the manual transmission in order to prevent oil filled in the inside of the manual transmission having a long length from being biased to one side. Of course, in order to prevent the oil level on both sides of the intermediate plate 13 from being changed due to the presence of the intermediate plate 13, a plurality of oil holes 13 ′ are provided at the lower side of the intermediate plate 13. Is formed. Therefore, the oil on both sides of the intermediate plate 13 flows to the other side through the oil hole 13 'so that the oil level inside the manual transmission is kept constant. Of course, instead of forming the oil hole 13 'in the intermediate plate 13, a separate oil path (not shown) may be provided, but the function is the same as that of the oil hole 13'.

However, in the oil level adjusting structure of the conventional manual transmission configured as described above, oil is biased toward the front side or the rear side of the vehicle when driving on a slope, so that oil supply may not be smoothly supplied to some parts of the transmission, thereby deteriorating durability of the parts. .

That is, when the vehicle is driving uphill, the oil on the front side is moved to the rear side through the oil hole 13 'of the intermediate plate 13, so that the transmission component installed inside the transmission case 11 The oil supply to the oil supply is not smooth, and in the case of the downhill driving, the oil supply to the components on the side of the extension housing 12 is not smooth. As such, when the oil supply is not smooth, friction between the components occurs, which naturally weakens the durability of the components.

The present invention has been made to solve the above-mentioned problems of the prior art, so that even if the manual transmission vehicle travels on a slope, at least the front or rear side of the oil to maintain a minimum level by maintaining a smooth oil supply It is an object of the present invention to provide an oil level adjusting structure of a manual transmission which improves lubricity inside the transmission and prevents the durability of the parts from being weakened.

1 is a schematic view showing an oil level adjusting structure of a general manual transmission;

Figure 2 is a block diagram showing the oil level control structure of the manual transmission according to the present invention,

3 is a configuration diagram showing a valve device which is a main component of the present invention;

4 is a perspective view showing a main body of the valve configuration of the present invention,

5A and 5B are reference diagrams illustrating changes in oil level when driving downhill in the state where the oil level adjusting structure of the present invention is applied.

<Explanation of symbols on main parts of the drawings>

50: intermediate plate 51: oil hole

60: valve device 61: valve body

61a: head 61a ': hole

61b: stem 61b ': hollow part

62: return spring 63: washer

64: snap ring

The present invention for solving the above technical problem is a manual transmission case partitioning the transmission case and the extension housing with an intermediate plate, a pair of valve devices which are operated in different directions on the intermediate plate is installed It is characterized in that to control the flow of oil when running on the slope.

The valve device includes a valve body inserted into and retracted from an oil hole formed in the intermediate plate, a return spring extrapolated to the valve body and one end of the intermediate plate contacting the valve body to release the valve body; And a washer ring inserted into the main body to support the other end of the return spring, and a snap ring inserted into a groove formed at the stem end of the valve body to prevent the washer from being separated.

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

The oil level adjusting structure of the manual transmission according to the present invention is installed between the transmission case and the extension housing as shown in FIG. 2 and operated in different directions on the intermediate plate 50 partitioning the front side and the rear side. A pair of valve devices 60 are installed to control the flow of oil during the ramp run.

The valve device 60 includes a valve body 61 inserted into and retracted from the oil hole 51 formed in the intermediate plate 50 as shown in FIGS. 3 and 4, and the valve body 61. A return spring 62 which is extrapolated to the intermediate plate 50 and makes contact with the intermediate plate 50 to repel the valve body 61, and is inserted into the valve body 61 so that the other end of the return spring 62 is closed. It consists of a washer (63) for supporting and a snap ring (64) inserted into a groove (61 ") formed at the stem end of the valve body (61) to prevent separation of the washer (63).

Further, a plurality of holes 61a 'are formed in the inclined portion of the head 61a of the valve body 61 so that oil can enter and exit, and the stem 61b portion is formed of a hollow body so that the hollow portion 61b' is formed. It is formed to communicate with the hole 61 'of the part of the head 61a. Therefore, the oil flows through the outside of the valve body 61 and also through the hollow portion 61b 'of the stem 61b and the hole 61a' of the head 61a portion.

Of course, the valve device 60 should be installed at the same height when installed on the intermediate plate 50, which is very important for the flow of oil.

The oil level adjusting structure of the manual transmission of the present invention configured as described above permits the flow of oil only when the oil level of the front side or the rear side becomes more than a predetermined level when driving on a slope, and otherwise blocks the flow of the oil to prevent the front side. Or oil at the rear side to maintain a minimum level.

When the vehicle travels on a ramp, one valve device of the two valve devices 60 is not operated and only the other valve device is operated to allow the flow of oil. That is, in the case of driving downhill, as the oil on the rear side is driven toward the intermediate plate 50 side as shown in FIG. 5, the oil level is increased. Therefore, the oil load acts on the valve device 60 installed in the intermediate plate 50, and when the oil load becomes larger than the elastic force of the return spring 62 of the valve device 60, the valve body 61 ) Is moved by the oil load so that the portion of the head 61a of the valve body 61 is separated from the oil hole 51 of the intermediate plate 50.

When the head 61a portion of the valve body 61 is separated from the oil hole 51 of the intermediate plate 50, the oil on the rear side moves forward through the oil hole 51 and at the same time the valve It is also moved through the hollow part 61b 'and the hole 61a' of the main body 61. When the oil on the rear side is moved to the front side to some extent, the oil level on the rear side is reduced, and as the oil level is lowered, the oil load acting on the valve body 61 is reduced, so that the valve by the elastic force of the return spring 62 The main body 61 is retracted, whereby the oil hole 51 of the intermediate plate 50 is blocked and the flow of oil is stopped. Thus, the oil level on the rear side can be maintained at a constant level, and a minimum oil supply to the components on the extension housing side is possible.

Here, the spring coefficient of the return spring 62 is determined according to the oil load when maintaining the oil level of the appropriate level, the valve device 60 is operated only when the oil level exceeds the appropriate level to a certain value or less In the valve spring 60 is not operated by the return spring 62 to maintain the oil level at an appropriate level.

In other words, when the oil load applied to the valve body 61 portion is greater than or equal to a certain level, the return spring 62 is compressed so that the valve body 61 is separated from the oil hole of the intermediate plate 50 so that oil can flow. When the load is below a certain load, the return spring 62 is expanded to block the flow of oil by preventing the valve body 61 from being separated.

Of course, the valve device 60 used here is a valve device operated to the front side, and the valve device operated to the rear side, of course, does not operate but operates only when driving uphill. Although only the case of the downhill driving has been described above, in the case of the uphill driving, the operation outline is the same, except that a valve device operated to the rear side is used, and thus detailed description thereof will be omitted.

Here, the reason for using a pair of valve device 60 that operates in different directions is that one valve device can not cope with the uphill and downhill at the same time, the two operating in different directions for one transmission The use of a valve device is the key to maintaining the correct oil level, whether uphill or downhill.

The oil level adjusting structure of the manual transmission of the present invention configured as described above can maintain the oil level at the front side or the rear side at an appropriate level at all times when driving on a slope, so that the supply of oil can be maintained smoothly and the lubricity inside the transmission is maintained. At the same time, there is an improvement in the durability of transmission components.

Claims (5)

In the manual transmission case in which the transmission case and the extension housing are divided by an intermediate plate, And a pair of valve devices installed in the intermediate plate in different directions to control the flow of oil when driving on a slope. The method of claim 1, The valve device includes a valve body inserted into and retracted from a hole formed in the intermediate plate, a return spring extrapolated to the valve body and one end of the intermediate plate contacting the valve body to release the valve body, and the valve body. And a washer inserted into the groove to support the other end of the return spring, and a snap ring inserted into a groove formed at the stem end of the valve body to prevent the washer from being separated from the oil level adjusting structure of the manual transmission. The method of claim 2, The valve body is an oil level adjusting structure of a manual transmission, characterized in that at least one hole is formed so that oil can enter and exit the inclined portion of the head. The method of claim 2 or 3, The valve body is an oil level adjusting structure of a manual transmission, characterized in that the stem is formed of a hollow body so that the hollow portion communicates with the hole of the head portion. The method of claim 1, And the valve device is installed at the same height when installed on the intermediate plate.