The present disclosure relates to a greasing mechanism for a main electric motor of a vehicle.
An obligation exists for conducting periodic inspection of a main electric motor of an electric railway vehicle. Generally the main electric motor is removed from the vehicle every four years, the main electric motor is disassembled, the bearing parts are cleaned, and the bearing parts are repacked with grease. In recent years in order to reduce maintenance costs, a greasing port is provided for supplying grease to the bearing parts, grease is supplied at four years after the commencement of operation, and grease is repacked at eight years after the commencement of operation.
The external appearance of the main electric motor cannot be used to determine whether grease is previously supplied. Thus the determination of whether grease is previously supplied is made on the basis of a means such as a maintenance work log. When there is an error in an entry in the maintenance work log, lubrication failure may occur due to an excessive or insufficient amount of grease.
A bearing device disclosed in Patent Literature 1 is equipped with a lubricating oil introduction tube for increasing fluidity of grease by heating grease supplied to an interior-side tubular space of a double-tubular structure, the heating being by an operation fluid sealed in a tubular space to an exterior-side of the double-tubular structure. Due to arrangement of an oil level gauge in the lubricating oil introduction tube, residual amount of grease in this bearing device can be checked.
Patent Literature 1: Unexamined Japanese Patent Application Kokai Publication No. H08-086317
The bearing device disclosed in Patent Literature 1 requires the lubricating oil introduction tube that has the double-tubular structure, and structure of the bearing device is complex.
The present disclosure is developed in consideration of the aforementioned circumstances, and the objective of the present disclosure is to use a more simple structure to make possible the indication of the status of greasing of the main electric motor of the vehicle.
In order to attain the aforementioned objective, a greasing mechanism for a main electric motor of a vehicle of the present disclosure includes a greasing tube, an indicator member, and a retaining part. One end of the greasing tube is connected to a bearing of the main electric motor of the vehicle, a greasing port is arranged at another end of the greasing tube, and the greasing tube is filled with a semi-solid lubricant. The indicator member is arranged at a predetermined first position within the greasing tube filled with the semi-solid lubricant, and the indicator member has a specific gravity that is lower than a specific gravity of the semi-solid lubricant. The indicator member moves in a greasing direction due to pressure of the semi-solid lubricant during greasing, and the retaining part is shaped to stop the indicator member at a second position during greasing. A portion of the greasing tube including the second position is formed from a component that at least partially transmits visible light. The greasing tube includes a first tube having one closed end, the greasing port arranged at another end, and an opening part in a side surface along the greasing direction, and a second tube connected to the opening part of the first tube. The indicator member is arranged within the first tube.
According to the present disclosure, an indicator member is arranged that moves within the greasing tube due to the pressure of the semi-solid lubricant during greasing, and thus the status of greasing of the main electric motor of the vehicle can be indicated using a more simple structure.
Embodiments of the present disclosure are described below in detail in reference to figures. In the figures, components that are the same or equivalent are assigned the same reference signs.
The main electric motor of the vehicle includes: a stator 3 that has a coil 2, a rotor 4 that opposes the stator 3, and a frame 5 that surrounds the stator 3 and the rotor 4. A rotation shaft 6 is arranged so as to pass through the center of the rotor 4, and transmits rotation of the rotor 4 to the exterior of the main electric motor of the vehicle. A ball bearing 7 and a roller bearing 8 support the rotation shaft 6. Annular grease pockets 9 are each arranged in the vicinities of the ball bearing 7 and the roller bearing 8. The grease pocket 9 has any desired shape. During the assembly of the main electric motor of the vehicle, grease is used to fill the spaces of the ball bearing 7 and the roller bearing 8, and a predetermined amount of the grease fills the grease pockets 9. During the assembly of the main electric motor of the vehicle, for example, about half of the grease pocket 9 is filled with grease.
The greasing mechanism 1 is equipped with the grease-filled greasing tube 10, which has one end thereof connected to the ball bearing 7 or the roller bearing 8 and has a greasing port arranged at the other end. The greasing mechanism 1 is further equipped with: an indicator part 11, arranged in the greasing tube 10, for indicating the status of greasing, and a nipple 12 attached to the greasing port. Grease also fills a space within the nipple 12.
The direction of attachment of the greasing mechanism 1 to the main electric motor of the vehicle is any desired direction. For example, in the case of attachment of the greasing mechanism 1 to the main electric motor of an electric railway vehicle, due to performance of maintenance work on the main electric motor of the vehicle from a pit arranged below the rails, the greasing mechanism 1 is attached such that the greasing port is positioned vertically downward. Further, although any desired position is used for arrangement of the indicator part 11, from the exterior, checking of the status of greasing is easy due to arrangement of the indicator part 11 in the vicinity of the nipple 12.
As illustrated in
The greasing mechanism 1 includes a retaining part 15 that is shaped so as to stop at the second position the indicator member 13 that moves in the greasing direction due to pressure of the grease during greasing.
The opening part 16 is arranged at a position separated by a predetermined distance from the second position, and shape of the opening part 16 prevents entry of the indicator member 13. For example, in the case of a spherically shaped indicator member 13, the opening part 16 may have a circular cross-sectional shape and may have a cross-sectional diameter smaller than the diameter of the indicator member 13. The opening part 16 has a shape that prevents entry of the indicator member 13, and thus only grease flows into the second tube 18 during greasing. The position of arrangement of the opening part 16 is determined such that the indicator member 13 does not prevent the flowing of grease to the second tube 18.
Due to pressure of the grease during greasing, the indicator member 13 moves in the greasing direction from the first position illustrated in
The indicator member 13 that moves due to pressure of grease during greasing is arranged within the greasing tube 10, and the retaining part 15 is provided that retains the moved indicator member 13. Thus the greasing mechanism 1 enables the display of the status of greasing of the bearing.
The next greasing is performed from the greasing port to which a nipple 12b is attached, and the indicator member 13b moves from the first position to the second position. When the greasing is performed twice, both the indicator members 13a and 13b are positioned at the second position. For example, if the maintenance personnel look at the indicator windows 14a and 14b and see that both of the indicator members 13a and 13b are moved, then the maintenance personnel can determine that the greasing is previously performed twice. The number of first tubes 17 is not limited to two, and any desired number may be used.
As described above, the greasing mechanism 1 according to the embodiment has the indicator member 13 arranged within the greasing tube 10, and this enables the use of a simple configuration for indication of the status of greasing of the bearing.
The embodiments of the present disclosure are not limited to the aforementioned embodiment. The greasing tube 10 may be cylindrically shaped, and the retaining part 15 arranged within the greasing tube 10 may be a mesh-like circular plate or a projection that allows passage only of grease.
The foregoing describes some example embodiments for explanatory purposes. Although the foregoing discussion has presented specific embodiments, persons skilled in the art will recognize that changes may be made in form and detail without departing from the broader spirit and scope of the invention. Accordingly, the specification and drawings are to be regarded in an illustrative rather than a restrictive sense. This detailed description, therefore, is not to be taken in a limiting sense, and the scope of the invention is defined only by the included claims, along with the full range of equivalents to which such claims are entitled.
Filing Document | Filing Date | Country | Kind |
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PCT/JP2014/081708 | 12/1/2014 | WO | 00 |