JPS62106177A - Oil feeder for shaft member - Google Patents

Abstract

PURPOSE:To simplify the structure of an oil feeder by fixing a plate member for regulating the axial set position of a bearing to a housing, and providing a lubricating oil path in the plate member. CONSTITUTION:A bearing mount hole 2 is provided on a housing 1, and a rolling bearing 3 is pressed in the hole. The bearing 3 supports a shaft 4 such as a transmission shaft or the like, and an oil path 4a is formed at the center of the shaft 4 to form a hollow shaft. A set plate 6 as a plate member is fixed to the outer surface of the housing 1 by a bolt, and a face portion 8 having a difference in level with a fixed surface 7 to the housing 1 is formed on the inner surface of the set plate 6 to form a space 1 with an inner race 10 of the bearing 3. On the other hand, a passage 14 is formed on the set plate 6 to form a part of a lubricating oil path A.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a lubricating device for a shaft member such as a power transmission shaft of an engine transmission.

(Prior art and its problems) Traditionally, like the transmission shaft of a transmission.

In order to supply lubricating oil to a shaft body that has an oil passage formed inside, the vicinity of the supply port must be made oil-tight, and when lubricating oil is supplied from the shaft end of the shaft body, the bearing mounting part of the housing must be shaped like a bag. Therefore, the directionality of processing and bearing assembly has been limited to only one direction, that is, the direction facing the bag-shaped bearing mounting portion.

For this reason, if the bearing mounting part of the housing is opened instead of bag-shaped and the bearing is mounted through this opening, a stop plate is provided to close the frontage and hold the bearing in place. However, the structure for supplying lubricating oil to the shaft body becomes complicated.

(Object of the Invention) The present invention has been made in view of the above circumstances, and its purpose is to provide lubricating oil to the shaft body while providing the highest degree of freedom in processing and directionality of silk incorporation into the bearing. To provide an oil supply device for a shaft member that can reliably perform (3 types).

(Means for Solving the Problems) In order to achieve the above object, the present invention supports a shaft body having a shaft side oil passage through a bearing in a bearing device hole formed in a housing. A plate member for regulating the set position of the bearing in the axial direction is attached to the bearing, and a lubricating oil passage communicating with the shaft-side oil passage and through which lubricating oil flows is provided in the plate member.

(effect) Supplying lubricating oil from the lubricating oil passage to the shaft side oil passage.

Conversely, by supplying lubricating oil from the shaft-side oil passage to the lubricating oil passage and then removing the plate member, it is possible to mount the bearing into the bearing mounting hole from either side of the bearing mounting hole. It made it possible.

(Example) Embodiments of the present invention will be described below based on the drawings.

FIG. 1 shows a shaft member oil supply device according to an embodiment of the present invention, and the inside of FIG. 1 shows, for example, a housing of a transmission. This housing 1 is provided with a bearing mounting hole 2, into which a bearing 3 such as a rolling bearing is press-fitted. This bearing 3 is provided with a seal member 5 on the side facing the outside of the housing 1, and has an oil-tight structure.

The bearing 3 supports a shaft body 4 such as a transmission shaft, and a shaft-side oil passage 4a is formed in the center of the shaft body 4, forming a hollow shaft.

A set plate 6, which is a plate member, is attached to the outer surface of the housing 1 with fixing means such as bolts, and a fixing surface 7 to the housing 1 is attached to the inner surface of the set plate 6.
When the set plate 6 is fixed to the housing 1, the extension of the fixing surface 7 is in contact with the outer ring body 9 of the bearing 3, and the inner ring body 10 of the bearing 3 is in contact with the outer ring body 9 of the bearing 3. A gap 11 is formed between the surface portion 8 and the surface portion 8 .

A groove 1.3 is formed in the surface of the center plate 6, and a passage 14 communicating with the groove 13 is formed in the set plate 6.
is formed. The housing 1 also includes a passage 15.
This passage 15 and the passage 14 of the cella 1-plate 6 are communicated through a communication pipe 16.

The passages 14 and 15, the communication pipe 16, and the groove 13 form a lubricating oil passage A. Note that the communication pipe 16 is connected to the fitting hole 17 of the housing 1 and the fitting hole of the set plate 1-6]8
The seal rings 19 and 20 are removably inserted into the seal rings 19 and 20, respectively.

Therefore, when the passage 15 side is connected to a supply source of lubricating oil, the lubricating oil reaches the gap 11 via the lubricating oil passage A as indicated by the solid line arrow in FIG.
flows into.

In addition, when this shaft-side oil passage 4a communicates with a supply source of lubricating oil, the lubricating oil flows through the shaft-side oil passage 4a, the gap 11, and the lubricating oil passage A as indicated by the dotted line arrow in FIG. .

Furthermore, with the set plate 6 removed, the bearing 3 can be installed into the bearing mounting hole 2 from either the inside or outside of the housing 1.

The oil supply device for a shaft member shown in FIG. 2 is equipped with a center plate 6 similar to that shown in FIG. 1, and has a gap 11. The shaft body 4 has a shaft side oil passage 4a.
is the provision. A fitting hole 21 is formed in the set plate 6.

Reference numeral 22 denotes a housing on the engine side, for example, and a passage 23 is formed in this housing 22.
The opening portion 3 is a fitting portion 24.

25 is a connecting pipe member, and fitting blocks 26 and 27 are attached to both ends of this connecting pipe member 25.

One fitting block 26 of the connecting pipe member 25 is fitted into the fitting hole 21 of the set plate 6 via a seal ring 28, and the other fitting block 27 is sealed into the fitting part 24 of the housing 22. It is fitted through a ring 29, and the passage 23 and the connecting pipe member 25 form a lubricating oil passage A.

Therefore, when the passage 23 side of the housing 22 is connected to a lubricating oil supply source, the lubricating oil flows through the lubricating oil passage A, the gap 11 and the shaft side oil passage 4 as indicated by the solid line arrow in FIG.
If the shaft-side oil passage 4a side is connected to a lubricating oil supply source, the lubricating oil flows in the reverse order as indicated by the dotted line arrows in FIG.

Furthermore, with the set plate 6 removed, the bearing 3 can be assembled into the bearing mounting hole 2 from either the inside or outside of the housing 1.

The shaft member oil supply device shown in FIG. 3 has a gap 11 between the bearing 3 and the set plate 6, similar to the one shown in FIG. 1, and the shaft body 4 has a shaft side oil passage 4a. It is a provision. A groove 30 is formed in the surface portion 8 of the set plate 6, and a fitting hole 31 and a passage 32 are formed in the set plate 6.

One end of the passage 32 opens into the groove 30, and the other end opens into the circumferential surface of the insertion hole 31. The housing 1 is provided with a passage 33, and the opening of this passage 33 is formed into a threaded portion 34.

Reference numeral 35 denotes a bolt. An annular groove 36 is formed on the circumferential surface of this bolt 35, and a passage 37 extending from the annular groove 36 to an end surface is formed in this bolt 3S. A sealing groove 38 is formed in the bolt 35.

The bolt 35 is inserted into the insertion hole 3 of the set plate 6.
1 through a seal ring 39, and then screwed onto the threaded portion 34 of the housing 1, and the passage 32 in the cella 1 to the plate 6 communicates with the annular groove 36.

The passage 33, the annular groove 36, the passage 32 and the groove 30
A lubricating oil passage A is formed with the lubricating oil passage A.

Therefore, when the passage 33 side of the housing 1 is connected to a lubricating oil supply source, the lubricating oil is supplied to the lubricating oil passage A, the gap 11, and the shaft side oil passage 4a in this order as indicated by the solid line arrow in FIG. Furthermore, when this shaft-side oil passage 4a side is connected to a supply source of lubricating oil, the lubricating oil flows in the reverse order to the above as indicated by the dotted line arrow.

Further, when the bolts 35 are removed and the set plate 6 is removed, the bearing 3 can be installed into the bearing mounting hole 2 from either the inside or outside of the housing 1.

The shaft member oil supply device shown in FIG. 4 has a gap 11 between the bearing 3 and the set plate 6, similar to the one shown in FIG. 1, and the shaft body 4 is provided with a shaft side oil passage 4a. It is. A groove 40 is formed in the surface portion 8 of the set plate 6, and a passage 42 is formed in the set plate 6, passing from the groove 40 to the end face 41. It has become. A fitting block 45 at the end of the tubular body 44 is fitted into the fitting portion 43 via a seal ring 46, and the tubular body 44, the passage 42, and the groove 40 form a lubricating oil passage A.

Therefore, when the pipe body 44 side is connected to a lubricating oil supply source, the lubricating oil is supplied to the lubricating oil passage A, the gap 11, and the shaft side oil passage 4a in the order indicated by the solid line arrow in FIG. Furthermore, when the shaft side oil passage 4a side is connected to a supply source of lubricating oil, the lubricating oil flows in the reverse order to the above as indicated by the dotted line arrow in FIG.

Furthermore, when the set plate 6 is removed, the bearing 3 can be installed into the bearing mounting hole 2 from either the inside or outside of the housing 1.

The oil supply device for a shaft member shown in FIG. 5 includes a set plate 6 that abuts the outer race bodies 9 of two bearings 3, and a shaft body 4 having a shaft-side oil passage 4a. Then, the set plate 6
A gap 11 is formed between the bearing 3 and the bearing 3, respectively. There are two grooves 4 in the surface portions 8 of the plates 1 to 6.
7 are formed, and a passage 49 communicating with these grooves 47 is formed in the set plate 1-6, and this passage 49
A fitting part 5o is formed in the fitting part 50, and a fitting block 52 at the end of the tubular body 51 is fitted into the fitting part 50 via a seal ring 53, so that the tubular body 51 and the passage 49 are connected to each other. Groove 47
A lubricating oil passage A is formed with the lubricating oil passage A.

Therefore, when the pipe body 51 side is connected to a lubricating oil supply source, the lubricating oil flows in the order of the lubricating oil path A, the gap 11, and the shaft side oil path 4a as indicated by the solid line arrow in FIG. Further, when the shaft-side oil passage 4a side is connected to a supply source of lubricating oil, the lubricating oil flows in the reverse order to the above as indicated by the dotted line arrow in FIG.

Furthermore, when the set plate 6 is removed, the bearing 3 can be installed into the bearing mounting hole 2 from either the inside or outside of the housing 1.

(Effects of the Invention) As described in detail below, the oil supply device for a shaft member according to the present invention supports a shaft body having a shaft side oil passage through a bearing in a bearing mounting hole formed in a housing, A plate member for regulating the set position of the bearing in the axial direction is attached to the housing, and the plate member is provided with a lubricating oil passage communicating with the shaft side oil passage and through which lubricating oil flows. .

Therefore, lubricating oil is transferred from the lubricating oil path to the shaft side oil path of the shaft body.
Moreover, it becomes possible to supply the lubricating oil from this shaft-side oil passage to the lubricating oil passage, and the structure of the oil supply device for the shaft member can be simplified.

Moreover, when the plate member is removed, the bearing mounting hole in the housing allows the bearing to be installed into the housing from either the inside or outside of the housing, providing greater freedom in the direction of bearing installation. It can be expanded, and there is no need to form a bag-shaped bearing mounting part in the housing, and the degree of freedom regarding the direction of processing can be increased.

Further, in a shaft member oil supply device according to the present invention.

Since the lubricating oil path is connected to the lubricating oil supply source and the bearing has an oil-tight structure, it is possible to ensure the supply of lubricating oil from the lubricating oil path of the plate member to the shaft-side oil path of the shaft body. can.

[Brief explanation of drawings]

FIG. 1 is a longitudinal cross-sectional view showing one embodiment of the present invention, and FIGS. 2 to 5 are longitudinal cross-sectional views showing other different embodiments of the present invention. DESCRIPTION OF SYMBOLS 1...Housing, 2...Bearing mounting hole, 3...Bearing, 4...Shaft body, 4a...Shaft side oil passage, 6...Set plate (plate member), A...・Lubricating oil path.

Claims (1)

[Claims] 1. A shaft body having a shaft-side oil passage is supported via a bearing in a bearing mounting hole formed in a housing, and a plate member for regulating the axial set position of the bearing is attached to the housing. The oil supply device for a shaft member is further characterized in that the plate member is provided with a lubricating oil passage communicating with the shaft side oil passage and through which lubricating oil flows. 2. The oil supply device for a shaft member as set forth in claim 1, wherein the lubricating oil passage is connected to a lubricating oil supply source and the bearing has an oil-tight structure.