JP4573410B2 - Transmission oil gutter plate - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an oil gutter plate for a transmission that is disposed inside a mission case and supplies oil to a lubricated portion by gravity.
[0002]
[Prior art]
An automatic transmission has an oil pump that supplies hydraulic oil to a hydraulic clutch for shifting and a hydraulic brake, and each lubricated portion of the transmission uses a part of the hydraulic oil discharged from the oil pump as lubricating oil. Lubricated. On the other hand, in a manual transmission that does not have a hydraulic control system, it is common to lubricate the oil splashed by the gear by supplying it to the lubricated part with a bowl-shaped oil gutter plate. Such an oil gutter plate is known, for example, from JP-A-8-210476.
[0003]
[Problems to be solved by the invention]
By the way, if foreign matter such as metal powder is mixed in the oil for lubricating the lubricated portion of the transmission, the sliding portion may be damaged, so that means for removing the foreign matter from the oil is required. In an automatic transmission equipped with a hydraulic control system, foreign matter can be removed by installing a filter in the oil passage. Further, in a manual transmission that does not have a hydraulic control system, foreign matters are removed by a magnet, but there is a problem that non-magnetic foreign matters such as aluminum powder cannot be removed by a magnet.
[0004]
The present invention has been made in view of the above circumstances, and an object thereof is to provide an oil gutter plate for a transmission that can effectively remove foreign matters in oil.
[0005]
[Means for Solving the Problems]
To achieve the above object, according to the invention described in claim 1, disposed within the transmission case by for supplying oil by gravity to be lubricated of the transmission, the oil gutter plate Transmission met A first oil passage on the upstream side that is capable of capturing oil that has been sprung up by a part of the gear of the transmission that rotates inside the transmission case, and the first oil passage that is positioned lower than the first oil passage. A second oil passage on the downstream side connected to the passage through a step portion, and the oil that is captured by the first oil passage and flows down through the first oil passage by gravity passes through the step portion. in those so as to flow down to the second oil passage, be formed in cross-section channel-shaped having a bottom wall and a pair of side walls, a part of the second oil passage, wherein Forming a reservoir foreign material having a lower bottom than the wall, with a guide wall extending downstream from one of said side walls so as squeezing the middle of the second oil passage to stand on the bottom wall, the upper end of the guide wall A communication portion that is formed lower than the upper end of the side wall, and that communicates the second oil passage and the foreign substance reservoir with the guide wall and a communication port formed by cutting the downstream side of the guide wall to the bottom wall. The oil guided by the guide wall is caused to flow into the foreign material reservoir from the communication port together with foreign matter contained in the oil, and the bottom oil is passed over the supernatant oil in the foreign matter reservoir. And a weir for allowing it to flow out into the second oil passage on the downstream side of the foreign substance reservoir with a gap between the guide wall and the upper end of the weir is lower than the upper end of the side wall and Higher than bottom wall Formed, the foreign substance reservoir, oil gutter plate of the transmission, characterized in that the four sides are partitioned by the said weir and said one side wall and the guide wall is proposed.
[0006]
According to the above configuration, when the oil containing foreign matter flows through the second oil passage having the cross-sectional groove shape of the oil gutter plate toward the lubrication target portion, the foreign matter is prevented by the guide wall formed so as to squeeze the middle of the second oil passage. The foreign matter is collected in one place, and the foreign matter surely flows into the foreign matter reservoir through a communication port formed by cutting the downstream side of the guide wall to the bottom wall of the second oil passage. Since the upper end of the guide wall is formed lower than the upper end of the side wall of the second oil passage, even if the oil level rises due to the second oil passage being squeezed by the guide wall, the oil remains in the guide wall. It will not flow over the side wall of the second oil passage. Since the bottom surface of the foreign material reservoir is formed lower than the bottom wall of the second oil passage, the heavy foreign matter that has flowed into the foreign material reservoir sinks to the bottom surface of the foreign material reservoir, and the supernatant oil gets over the weir and accumulates the foreign material reservoir. Accordingly, the foreign matter once flowing into the second oil passage on the downstream side , and once flowing into the foreign matter reservoir, is prevented from flowing out again into the second oil passage, and the foreign matter in the oil can be reliably removed. Moreover, any foreign matter can be collected regardless of whether it is a magnetic material or a non-magnetic material.
[0007]
According to the invention described in claim 2, in addition to the configuration of claim 1, the bottom surface of the foreign substance reservoir is curved so as to be along the upper surface of the boss portion of the mission case that supports the mission shaft. An oil gutter plate for a transmission is proposed in which the bottom surface of the foreign object reservoir on the far side is formed to be the lowest.
[0008]
According to the above configuration, the bottom surface of the foreign substance reservoir is curved so as to be along the upper surface of the boss portion of the mission case, and the bottom surface of the foreign substance reservoir farthest from the communication port is the lowest, so it has flowed into the foreign substance reservoir. The foreign matter is held at the lowest portion on the side far from the communication port, and is reliably prevented from flowing out again into the second oil passage.
[0009]
According to the invention described in claim 3, in addition to the configuration of claim 1 or 2, oil is supplied to the shaft end portion of the main shaft of the transmission at the downstream portion of the second oil passage from the weir. An oil gutter plate for a transmission is provided, which is provided with an oil discharge port for a main shaft for discharging toward the vehicle.
[0010]
According to the invention described in claim 4, in addition to the structure of any one of claims 1 to 3, oil is supplied to the other part of the second oil passage upstream of the communication port . An oil discharge port for gear for discharging toward the gear is provided, and an oil discharge port for synchro mechanism for discharging oil toward the sync mechanism of the transmission is provided in the first oil passage. An oil gutter plate for transmission is proposed.
[0011]
Incidentally, the counter shaft Sc in the embodiment corresponds to the mission shaft of the present invention.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below based on the embodiments of the present invention shown in the accompanying drawings.
[0013]
1 to 5 show an embodiment of the present invention. FIG. 1 is a longitudinal sectional view of a manual transmission (a sectional view taken along line 1-1 in FIG. 2), and FIG. 2 is a sectional view taken along line 2-2 in FIG. 3 is a cross-sectional view taken along line 3-3 of FIG. 1, and FIGS. 4 and 5 are perspective views of an oil gutter plate.
[0014]
As shown in FIG. 1, an automotive forward 5 speed and reverse 1 speed manual transmission T includes a clutch case 11 and a transmission case 12 that are fastened together. Between the clutch case 11 and the transmission case 12, the main shaft Sm, the counter shaft Sc, and the differential gear D are rotatably supported, and the reverse shaft Sr is non-rotatably supported. A clutch (not shown) is accommodated in the clutch case 11, and the driving force of the engine is transmitted to the main shaft Sm via the clutch.
[0015]
A main first speed gear 13 and a main second speed gear 14 are fixed to the main shaft Sm, and a main third speed gear 15, a main fourth speed gear 16 and a main fifth speed gear 17 are supported so as to be relatively rotatable. A counter first speed gear 18 and a counter second speed gear 19 that mesh with the main first speed gear 13 and the main second speed gear 14 respectively are supported on the counter shaft Sc so as to be relatively rotatable. A counter third speed gear 20, a counter fourth speed gear 21, and a counter fifth speed gear 22 that mesh with the high speed gear 16 and the main fifth speed gear 17 are fixed.
[0016]
The counter first speed gear 18 and the counter second speed gear 19 are selectively coupled to the counter shaft Sc via a first speed-second speed sync mechanism 23. The main third speed gear 15 and the main fourth speed gear 16 are coupled to the main shaft Sm via a third speed / fourth speed sync mechanism 24. The main 5-speed gear 17 is selectively coupled to the main shaft Sm via the 5-speed sync mechanism 25.
[0017]
A reverse idle gear 26 is supported on the reverse shaft Sr so as to be slidable in the axial direction. The reverse idle gear 26 is fixed to a main reverse gear 27 fixed to the main shaft Sm and a first-speed / second-speed sync mechanism 23. The counter reverse gear 28 can be meshed. A final drive gear 29 fixed to the counter shaft Sc meshes with a final driven gear 31 provided to the differential case 30.
[0018]
Thus, when the first-speed / second-speed sync mechanism 23 is engaged with the counter first-speed gear 18 to the countershaft Sc, the first-speed gear stage is established, and the first-speed-2 speed sync mechanism 23 is used to connect the counter second-speed gear 19 to the countershaft. When fastened to Sc, the second speed is established, and when the main third speed gear 15 is fastened to the main shaft Sm by the third and fourth speed sync mechanism 24, the third speed is established, and the third and fourth speed sync mechanism 24 When the main 4-speed gear 16 is engaged with the main shaft Smc, the 4-speed gear stage is established, and when the main 5-speed gear 17 is engaged with the main shaft Sm by the 5-speed sync mechanism 25, the 5-speed gear stage is established.
[0019]
When the first gear to the fifth gear are established, the reverse idle gear 26 is in the illustrated position and the main reverse gear 27 and the counter reverse gear 28 are disconnected, but the reverse idle gear 26 is When the vehicle is moved right along the reverse shaft Sr and meshed with the main reverse gear 27 and the counter reverse gear 28, the reverse gear is established.
[0020]
Next, the structure of the oil gutter plate G will be described with reference to FIGS.
[0021]
The oil gutter plate G integrally formed of synthetic resin is disposed in the upper space of the transmission T, receives the oil splashed by the final driven gear 31 on the upstream side, and flows to the downstream side by gravity, and the third speed of the main shaft Sm— Oil is supplied and lubricated to the 4-speed sync mechanism 24, the shaft end of the main shaft Sm, the shaft end of the counter shaft Sc, the counter 4-speed gear 21 of the counter shaft Sc, the counter 5-speed gear 55 of the counter shaft Sc, and the like. In addition, it has a function of collecting foreign substances contained in the oil.
[0022]
The oil gutter plate G includes an upstream first oil passage 41 and a downstream second oil passage 43 connected to the first oil passage 41 via a step portion 42. The locking projections 44, 45 provided on the transmission case 12 are locked to a locked portion (not shown) of the mission case 12, and the locking projection 46 provided on the second oil passage 43 is locked to the engagement of the transmission case 12. It is supported by being locked to the stopper 12a (see FIG. 1).
[0023]
The first oil passage 41 has a groove-shaped cross section having a bottom wall 47 curved in an S shape and a pair of side walls 48, 49 rising from both side edges of the bottom wall 47. A locking projection 44 is formed, and the locking projection 45 is formed on the other side wall 49. One side wall 51 in the vicinity of the first oil discharge port 50 formed at the downstream end of the first oil passage 41 is disconnected from the one side wall 48, and the bottom wall 47 is located between both side walls 51, 48. A flow dividing plate 52 is erected. The oil discharged from the first oil discharge port 50 lubricates the third and fourth speed sync mechanism 24 of the main shaft Sm. The flow dividing plate 52 functions to guide part of the oil flowing through the first oil passage 41 of the guide plate G to the first oil discharge port 50 and guide the remaining oil to the second oil passage 43.
[0024]
The second oil passage 43 connected to the first oil passage 41 via the step portion 42 has bottom walls 53 and 54 and a pair of side walls 55 and 56 rising from both side edges of the bottom walls 53 and 54. The locking projection 46 is formed on one of the side walls 55. The bottom walls 53 and 54 are separated by a weir 57 lower than the pair of side walls 55 and 56, but the heights of the bottom walls 53 and 54 are smoothly connected without having a step. A second oil discharge port 58 and a third oil discharge port 59 are formed on the other side wall 56 facing the upstream side bottom wall 53, and a fourth oil discharge port 60 is formed on the bottom wall 53. The oil discharged from the second oil discharge port 58 and the third oil discharge port 59 lubricates the counter fourth speed gear 21 and the counter fifth speed gear 22, and the oil discharged from the fourth oil discharge port 60 corresponds to the counter shaft Sc. Lubricate the shaft end.
[0025]
A foreign substance reservoir 61 having a bottom surface 61 a that is one step lower than the bottom wall 53 is formed on one side of the downstream side of the bottom wall 53. A guide wall 62 extending from the side wall 56 on the downstream side of the third oil discharge port 59 is formed between the bottom wall 53 and the foreign substance reservoir 61, and the upstream side flow path of the foreign substance reservoir 61 is formed by the guide wall 62. The width is narrowed. A communication port 63 that communicates with the foreign substance reservoir 61 is formed at the downstream end of the guide wall 62. The lower end of the communication port 63 is cut to the same height as the bottom wall 53. The foreign substance reservoir 61 is formed in a trapezoidal shape in a plan view, and two sides thereof are partitioned by a side wall 56, the other one side is partitioned by a guide wall 62, and the other one side is partitioned by a weir 57. A fifth oil discharge port 64 sandwiched between the end portions of both side walls 55 and 56 is formed at the end of the bottom wall 54 connected to the downstream side of the weir 57. The oil discharged from the fifth oil discharge port 64 lubricates the shaft end portion of the main shaft Sm.
[0026]
As shown in FIGS. 2 and 3, at the bottom of the transmission case 12, a recess 12b that supports the shaft end of the main shaft Sm via a ball bearing (not shown) and the shaft end of the counter shaft Sc are ball bearings. A recess 12c for supporting the bearing 65 (see FIG. 3) and a recess 12d for supporting the differential gear D on the roller bearing 66 (see FIG. 1) are formed, and the bottom surface 61a of the foreign matter reservoir 61 of the oil gutter plate G is formed. Is curved and formed along the upper surface of the annular boss 12e formed on the outer periphery of the recess 12c that supports the counter shaft Sc. Of the curved bottom surface 61a of the foreign substance reservoir 61, the portion farthest from the bottom surface 53 of the second oil passage 43 is deepest (see a portion in FIG. 3).
[0027]
Next, the operation of the embodiment of the present invention having the above configuration will be described.
[0028]
The oil splashed by the large-diameter final driven gear 31 (see FIG. 1) rotating inside the transmission case 12 is captured in the upstream portion of the first oil passage 41 of the oil gutter plate G, and then along the first oil passage 41. And flow down by gravity. A part of the oil flowing down the first oil passage 41 is bent by the flow dividing plate 52 and discharged from the first oil discharge port 50 to lubricate the third-speed / fourth-speed sync mechanism 24 of the countershaft Sc. The remainder of the oil whose path has not been bent by the flow dividing plate 52 flows down the second oil passage 43 through the step 42, and is discharged from the second to fourth oil discharge ports 58, 59, 60 in the process, respectively. The shaft end portions of the fourth speed gear 21, the counter fifth speed gear 22, and the counter shaft Sc are lubricated.
[0029]
The remaining oil that has not been discharged from the second to fourth oil discharge ports 58, 59, 60 further flows down the second oil passage 43 and is guided by the guide wall 62 to narrow the flow passage width. Foreign matter such as metal powder contained in the is collected in one place. The guide wall 62 is communicated with port 63 to the foreign substance reservoir 61 is formed at the broken, and since the weir 57 at the downstream side of the guide wall 62 is provided, the oil containing foreign matter from the communication port 63 It flows into the foreign substance reservoir 61. A heavy foreign matter sinks to the bottom surface of the foreign matter reservoir 61, and the supernatant oil passes over the weir 57 and flows into the downstream portion of the second oil passage 43, and the oil discharged from there through the fifth oil discharge port 64 is discharged. Lubricate the shaft end of the main shaft Sm.
[0030]
The bottom surface 61 a of the foreign material reservoir 61 is formed one step lower than the bottom walls 53 and 54 of the second oil passage 43 and is surrounded by the side wall 56, the guide wall 62 and the weir 57 on all sides. The foreign matter once collected does not flow out again. Further, since the guide wall 62 narrows the flow passage width of the second oil passage 43 and the oil level rises, the upper edge of the guide wall 62 is formed lower than the upper edge of the side wall 55. Gets over the guide wall 62 and flows into the foreign substance reservoir 61, and does not overflow from the side wall 55.
[0031]
Further, the bottom surface 61a of the foreign material reservoir 61 is curved along the top surface of the boss portion 12e of the recess 12c that supports the counter shaft Sc, and the portion farthest from the bottom surface 53 of the second oil passage 43 is deepest (FIG. 3). The a foreign substance once collected can be more reliably prevented from flowing out again. In addition, unlike the collection of foreign matter by the magnet, the foreign matter collected by the foreign matter reservoir 61 is not limited to a magnetic body, and therefore, even non-magnetic foreign matter such as aluminum powder can be reliably collected.
[0032]
As mentioned above, although the Example of this invention was explained in full detail, this invention can perform a various design change in the range which does not deviate from the summary.
[0033]
For example, although the foreign substance reservoir 61 is provided in the vicinity of the downstream end of the oil gutter plate G in the embodiment, it can be provided at an arbitrary position of the oil gutter plate G.
[0034]
【The invention's effect】
As described above, according to the first aspect of the present invention, when the oil containing the foreign material flows through the second oil passage having the groove shape in the cross section of the oil gutter plate toward the lubrication target portion, the oil passes along the second oil passage . Foreign matter is collected in one place by the guide wall formed so as to be squeezed, and the foreign matter surely flows into the foreign matter reservoir through a communication port formed by cutting the downstream side of the guide wall to the bottom wall of the second oil passage. . Since the upper end of the guide wall is formed lower than the upper end of the side wall of the second oil passage, even if the oil level rises due to the second oil passage being squeezed by the guide wall, the oil It does not flow over into the foreign substance reservoir and over the side wall of the second oil passage. Since the bottom surface of the foreign substance reservoir is formed lower than the bottom wall of the second oil passage, the heavy foreign matter that has flowed into the foreign substance reservoir sinks to the bottom surface of the foreign substance reservoir and the supernatant oil gets over the weir and becomes foreign matter. The foreign matter that has flowed out of the reservoir into the second oil passage on the downstream side and therefore once entered the foreign matter reservoir is prevented from flowing out again into the second oil passage, and foreign matters in the oil can be reliably removed. Moreover, any foreign matter can be collected regardless of whether it is a magnetic material or a non-magnetic material.
[0035]
According to the invention described in claim 2, the bottom surface of the foreign substance reservoir is curved so as to be along the upper surface of the boss portion of the mission case, and the bottom surface of the foreign substance reservoir on the side far from the communication port is lowest. Therefore, the foreign material that has flowed into the foreign material reservoir is held at the lowest portion on the side far from the communication port, and is reliably prevented from flowing out into the second oil passage again.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a manual transmission (a sectional view taken along line 1-1 of FIG. 2).
2 is a sectional view taken along line 2-2 in FIG. 1. FIG. 3 is a sectional view taken along line 3-3 in FIG. 1. FIG. 4 is a perspective view of an oil gutter plate. Explanation】
12 transmission case 12e boss portions 21 and 22 the gear 24 synchronizing mechanism 41 the first oil passage channel 43 second oil passage path 50 synchromesh mechanism for the oil discharge port 53 bottom wall 54 bottom wall 55 side wall 56 side wall 57 weirs 58 and 59 oil gear Discharge port 61 Foreign matter reservoir 61a Bottom surface 62 Guide wall 63 Communication port 64 Oil discharge port for main shaft Sc Counter shaft (mission shaft)
Sm Main shaft

Claims (4)

An oil gutter plate for a transmission disposed inside a transmission case (12) for supplying oil by gravity to a lubricated portion of the transmission (T) ,
A first oil passage (41) on the upstream side that can capture the oil splashed by a part of the gear (31) of the transmission (T) rotating inside the transmission case (12), and the first oil passage (41 ) And a downstream second oil passage (43) connected to the first oil passage (41) via a step portion (42), the first oil passage (41). The oil that is trapped in and flows down through the first oil passage (41) due to gravity flows down to the second oil passage (43) through the step portion (42).
Second oil passage (43), a bottom wall (53, 54) and is formed in cross-section channel-shaped having a pair of side walls (55, 56), a part of the second oil passage (43), wherein Forming a foreign substance reservoir (61) having a bottom surface (61a) lower than the bottom walls (53, 54);
A guide wall (62) extending downstream from one of the side walls (56) so as to squeeze the middle of the second oil passage (43) is erected on the bottom wall (53, 54), and the guide wall (62 ) Lower than the upper ends of the side walls (55, 56),
And the guide wall (62), the said downstream side of the guide wall (62) bottom wall (53, 54) to cut at the formed communication opening out with (63), a reservoir foreign matter second oil passage (43) (61) is connected , and the oil guided by the guide wall (62) is caused to flow into the foreign matter reservoir (61) from the communication port (63) together with the foreign matter contained in the oil. And
Further, a weir (57) is provided on the bottom wall (53, 54) to allow the supernatant oil in the foreign matter reservoir (61) to get over and to flow out to the second oil passage (43) downstream from the foreign matter reservoir (61). ) Standingly spaced from the guide wall (62), the upper end of the weir (57) is lower than the upper end of the side wall (55, 56) and the bottom wall (53, 54). ) high form than,
An oil gutter plate for a transmission, wherein the foreign substance reservoir (61) is partitioned by the weir (57), the one side wall (56), and the guide wall (62) on four sides .   The bottom surface (61a) of the foreign matter reservoir (61) is curved along the top surface of the boss portion (12e) of the mission case (12) supporting the mission shaft (Sc), and the foreign matter on the side far from the communication port (63) The transmission oil gutter plate according to claim 1, wherein the bottom surface (61a) of the reservoir (61) is formed to be the lowest. In the second oil passage (43), downstream of the weir (57), oil is discharged from the main shaft for discharging oil toward the shaft end of the main shaft (Sm) of the transmission (T). An oil gutter plate for a transmission according to claim 1 or 2, characterized in that an outlet (64) is provided. Said second oil passage (43), wherein the upstream portion than the communicating port (63), a gear oil discharge port for discharging toward the other gear of the oil transmission (T) (21, 22) (58, 59), and further, the first oil passage (41) is provided with an oil discharge port (50) for a synchro mechanism for discharging oil toward the sync mechanism (24) of the transmission (T). The oil gutter plate for a transmission according to any one of claims 1 to 3, wherein

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