JP2008002596A - Transmission case - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transmission case suitable to a transmission of a type using an oil pump for supplying lubricating oil, having a lubricating oil cooling function. <P>SOLUTION: In the transmission case 1 using the oil pump 2 or supplying lubricating oil, the heat of the lubricating oil is received from a transfer passage 5 which is formed on the bottom for transferring the lubricating oil from an oil pan 4 to the oil pump 2, directly by an inner wall 1a of the transmission case 1 and released from an outer wall 1b to the outside. Preferably, part of the transfer passage 5 is formed with the inner wall 1a so that the lubricating oil directly contacts the inner wall 1a. Thus, the heat of the lubricating oil is efficiently released in the process of transferring the lubricating oil. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a transmission case having a function of cooling lubricating oil, and in particular, to a manual transmission case in which lubricating oil is supplied by a built-in oil pump.

  One method of supplying lubricating oil to each part of the transmission is to supply the lubricating oil by an oil pump built in the transmission case. FIG. 2 shows a schematic diagram of a conventional internal structure according to this method. An oil pan 14 is formed at the bottom of the transmission case 11 and stores lubricating oil (not shown). When the engine is driven, the lubricating oil is sucked up by the oil pump 12 through the oil strainer 13 and supplied to each part of the transmission (not shown). After contributing to the lubricating action, the lubricating oil drops as oil droplets or travels along the inner wall of the transmission case 11 and is returned to the oil pan 14.

  In the transmission, the lubricating oil not only acts as a lubricant but also acts as a coolant. Therefore, when the oil temperature rises due to high-speed operation, not only the lubricity is lowered due to the reduced viscosity, but also the cooling performance is lowered. Further, the increase in the oil temperature increases the deterioration rate of the lubricating oil. Therefore, it is necessary to use the lubricating oil for the transmission while cooling it to an appropriate temperature during operation (while preventing the oil temperature from rising).

  As a method of cooling the lubricating oil, for example, a reduction in the amount of lubricating oil to be supplied, installation of an oil cooler (for example, refer to Patent Documents 1 and 2), or formation of cooling fins in a transmission case (for example, Patent Documents 3 to 3). 5) is known.

JP-A-10-176748 Japanese Patent Laid-Open No. 7-98054 Japanese Utility Model Publication No.59-122461 Japanese Utility Model Publication No. 5-47601 JP 2002-5270 A

  As shown in FIG. 2, there is a limit in reducing the amount of lubricating oil in a transmission that recirculates lubricating oil with an oil pump. Further, as in Patent Documents 3 to 5, if the lubricating oil is filled to about half of the transmission case, it is considered effective to radiate the heat of the lubricating oil by the cooling fin formed on the side surface of the transmission case. It is done. However, in a transmission case in which lubricating oil is accumulated in the bottom oil pan, the area where the lubricating oil and the transmission case come into contact is limited, and effective heat dissipation cannot be expected.

  Further, as in Patent Documents 1 and 2, it is not preferable in terms of cost and space to install an oil cooler.

  An object of the present invention is to provide a transmission case having a lubricating oil cooling function suitable for a transmission of a type that supplies lubricating oil by an oil pump.

  According to a first aspect of the present invention, there is provided a transmission case for supplying lubricating oil by an oil pump, wherein the lubricating oil is transferred from an oil pan formed at the bottom to an oil pump from a transfer path to the case inner wall. A transmission case that directly receives heat is provided.

  According to the preferable form of the first aspect, the lubricating oil directly contacts the inner wall of the case in the transfer path.

  According to the preferable form of the first aspect, the case inner wall forms at least a part of the transfer path.

  According to the preferable form of the first aspect, the transmission case includes the heat radiating fins on the case outer wall which is at least the back side of the case inner wall.

  According to the preferable form of the first aspect, the groove is formed on the inner wall of the case along the transfer direction of the lubricating oil.

  According to the transmission case of the present invention, the heat of the lubricating oil can be radiated to the transmission case when the lubricating oil is transferred from the oil pan to the oil pump. Therefore, heat can be radiated in a series of lubrication steps (lubricating oil transfer step), and the lubricating oil can be efficiently cooled. In addition, since heat can be radiated without adding new elements (devices / parts) in the transmission case, it is possible to realize cooling of the lubricating oil while avoiding an increase in cost and space.

  The internal structure of the transmission case according to the embodiment of the present invention is shown in FIG. An oil pump 2 for supplying lubricating oil to a lubrication portion of a transmission (not shown) is built in the transmission case 1. An oil pan 4 for storing lubricating oil is formed at the bottom of the transmission case 1, and an oil strainer 3 is installed. The oil strainer 3 and the suction port of the oil pump 2 are connected by a transfer path (transfer pipe) 5 for transferring the lubricating oil. A part of the transfer path 5 is formed in contact with the inner wall 1 a surface of the transmission case 1. Preferably, as shown in FIG. 1, a part of the transfer path 5 is formed by the inner wall 1 a of the transmission case 1. Thereby, the inner wall 1a functions as a heat receiving portion that receives the heat of the lubricating oil.

  According to this embodiment, the lubricating oil is transferred from the oil pan 4 to the oil pump 2 while radiating heat to the inner wall 1a of the transmission case 1 (white arrow). In particular, in the form in which the lubricating oil is brought into direct contact with the inner wall 1 a of the transmission case 1, the heat of the lubricating oil is directly transmitted to the transmission case 1. The heat transmitted to the transmission case 1 is radiated to the outside through the outer wall (heat radiating part) 1b on the back side of the heat receiving part 1a (black arrow).

  The transfer path 5 is more preferably formed so that the contact area and / or contact time between the lubricating oil and the inner wall 1a of the transmission case 1 is increased. For example, the cross-sectional shape of the pipe of the transfer path 5 can be a rectangle having a large difference between the lengths of the long side and the short side, and one long side can be configured by the inner wall 1a. Further, the transfer path 5 in contact with the inner wall 1a may be made long so that the arrangement of the transmission and the discharge pressure / discharge amount of the oil pump 2 are not affected.

  It is preferable to increase the surface area of the inner wall 1a portion serving as the heat receiving portion and / or the outer wall of the transmission case 1, particularly the outer wall 1b portion serving as the back side of the inner wall 1a so that heat can be received or radiated efficiently. For example, it is preferable to form a plurality of grooves (or heat receiving fins) along the lubricating oil transfer direction in the inner wall 1a serving as the lubricating oil transfer path. Moreover, it is preferable to form a plurality of radiating fins on the outer wall (at least the outer wall 1b portion serving as the heat radiating portion).

  The transmission case of the present invention can be applied regardless of the type of transmission or the type of apparatus provided with the transmission as long as it is a transmission that supplies lubricating oil by an oil pump. For example, the present invention can be applied to a transmission case of a manual transmission of an automobile.

  It goes without saying that the present invention can be implemented without being limited to the above-described embodiments, and further includes further modifications, changes, and improvements within the scope of the present invention.

The schematic diagram which shows the internal structure of the transmission case of this invention. The schematic diagram which shows the internal structure of the conventional transmission case.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Transmission case 1a Inner wall 1b used as heat receiving part Outer wall used as heat radiating part 2 Oil pump 3 Oil strainer 4 Oil pan 5 Transfer path (transfer pipe)
6 Flow of lubricating oil 7 Heat radiation path 11 Transmission case 12 Oil pump 13 Oil strainer 14 Oil pan 15 Transfer path (transfer pipe)
16 Lubricant flow

Claims (5)

A transmission case for supplying lubricating oil by an oil pump,
A transmission case that directly receives the heat of the lubricating oil from a transfer path for transferring the lubricating oil from an oil pan formed at the bottom to the oil pump to the inner wall of the case.   The transmission case according to claim 1, wherein lubricating oil directly contacts the inner wall of the case in the transfer path.   The transmission case according to claim 1, wherein the case inner wall forms at least a part of the transfer path.   The transmission case according to any one of claims 1 to 3, further comprising a heat radiating fin on a case outer wall which is at least a back side of the case inner wall.   The transmission case according to any one of claims 1 to 4, wherein a groove is formed in the inner wall of the case along a transfer direction of the lubricating oil.

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