CN211530901U

CN211530901U - Oil injection and discharge structure of vertical motor bearing

Info

Publication number: CN211530901U
Application number: CN201922384936.XU
Authority: CN
Inventors: 耿治起; 亣文泽; 郑莉能; 朱瑞霞
Original assignee: Shanghai Electric Group Shanghai Electric Machinery Co Ltd
Current assignee: Shanghai Electric Group Shanghai Electric Machinery Co Ltd
Priority date: 2019-12-26
Filing date: 2019-12-26
Publication date: 2020-09-18
Anticipated expiration: 2029-12-26

Abstract

The utility model discloses an oil injection and discharge structure of a vertical motor bearing, which comprises an oil injection channel, an oil baffle disc, an oil throwing disc and an oil discharge box; the grease injection channel is arranged on the side of the outer cover of the bearing and then leads downwards to a roller path of the rolling bearing; the oil baffle disc and the oil thrower disc are positioned in a closed bearing space formed by the bearing outer cover, the bearing sleeve and the bearing inner cover; the oil baffle disc is sleeved on the top of the shaft and positioned above the rolling bearing, and the extension of the oil baffle disc is matched with the inner wall of the outer cover of the bearing to form a spigot; the oil thrower is sleeved on the shaft and positioned below the rolling bearing and is clamped with the inner side wall of the bottom surface of the inner bearing cover; one side of the bearing inner cover is provided with a grease discharging channel leading to the bearing space, the grease discharging channel faces to the side edge of the oil thrower, and the grease discharging box is connected with the grease discharging channel. The utility model discloses can realize the high-efficient smooth and easy oiling of vertical motor antifriction bearing and oil extraction.

Description

Oil injection and discharge structure of vertical motor bearing

Technical Field

The utility model relates to an oil injection and discharge structure is annotated to upright motor bearing for motor manufacturing field.

Background

In the prior art, a rolling bearing of a vertical motor generally has two oil injection and discharge structures, namely an upper oil injection and lower oil discharge structure and a lower oil injection and upper oil discharge structure. The oil discharge ports on the bearing inner cover or the bearing outer cover of the two structures are designed in the horizontal direction, lubricating grease is extruded to the oil discharge ports by means of internal extrusion force generated by injecting excessive lubricating grease, and after the bearing inner cavity is completely filled with the lubricating grease, the lubricating grease in the bearing can generate pressure to push the excessive lubricating grease to enter the oil discharge ports of the bearing to form lubricating grease circulation. Because the oil drain port of the bearing is generally slender and narrow, when the bearing is filled with oil, the pressure generated inside the lubricating grease can cause the excessive lubricating grease to flow out from the gap between the inner cover and the outer cover of the bearing, the phenomenon of leaking the lubricating grease is generated, and the amount of the lubricating grease flowing out from the oil drain port of the bearing is small. Meanwhile, as the cavity inside the bearing is completely filled with lubricating grease, poor heat dissipation of the bearing is caused, and the temperature of the bearing is overhigh during the operation of the bearing. In order to solve the problems of bearing grease leakage, difficult oil discharge and high running temperature of a bearing, a technical worker needs to design a novel vertical motor rolling bearing oil injection and discharge structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide an oil injection and extraction structure is held to upright motor, it can realize the high-efficient smooth and easy oiling of upright motor antifriction bearing and oil extraction.

One technical scheme for achieving the above purpose is as follows: an oil injection and discharge structure of a vertical motor bearing comprises a shaft, a rolling bearing, a bearing sleeve, a bearing outer cover and a bearing inner cover, wherein the shaft is vertically arranged, the rolling bearing is sleeved at the top end of the shaft, the bearing sleeve is sleeved outside the rolling bearing, the bearing outer cover and the bearing inner cover respectively seal the rolling bearing from up and down directions, and the oil injection and discharge structure further comprises a grease injection channel, an oil baffle disc, an oil thrower disc and a grease discharge box;

the grease injection channel is arranged on the side of the outer cover of the bearing and then leads downwards to the roller path of the rolling bearing;

the oil baffle disc and the oil thrower disc are positioned in a closed bearing space formed by the bearing outer cover, the bearing sleeve and the bearing inner cover; the oil baffle disc is sleeved on the top of the shaft and positioned above the rolling bearing, and the extension of the oil baffle disc is matched with the inner wall of the outer bearing cover to form a spigot; the oil thrower is sleeved on the shaft and positioned below the rolling bearing and is clamped with the inner side wall of the bottom surface of the bearing inner cover;

and one side of the bearing inner cover is provided with a grease discharging channel leading to the bearing space, the grease discharging channel faces to the side edge of the oil thrower, and the grease discharging box is connected with the grease discharging channel.

Furthermore, a fit clearance is arranged below the inner wall of the bearing outer cover and the extended fit spigot of the oil baffle disc.

Still further, the windage tray is fixed to the top of the shaft by bolts.

Furthermore, the side edge of the oil thrower is obliquely arranged downwards to form a slope structure.

Still further, the diameter of the oil thrower is larger than or equal to the ball pitch diameter of the rolling bearing.

Furthermore, the inner wall of the bearing inner cover is provided with a clamping groove structure, and the lower surface of the oil thrower is provided with a clamping structure matched with the clamping groove structure and is clamped and fixed with the bearing inner cover through the clamping structure.

Furthermore, the outer peripheral surface of the shaft is provided with a stepped structure, and the lower surface of the oil thrower is provided with a clamping structure matched with the stepped structure and is fixedly clamped with the shaft through the clamping structure.

Further, the grease discharging port of the grease discharging box is lower than the symmetry center of the grease discharging box.

Still further, the grease discharging port is connected with a grease pumping pipe.

In the oil injection and discharge structure of the vertical motor bearing, lubricating grease flows into the roller path by virtue of the gravity of the lubricating grease, and the grease injection path is directly communicated with the roller path above the bearing, so that the lubricating grease can more easily enter the rolling of the bearing; the bearing outer cover and the oil baffle disc are matched by adopting a seam allowance with a small gap, so that lubricating grease can more easily enter the bearing to roll, and the oil baffle disc prevents the lubricating grease from overflowing to the upper part of the oil baffle disc; the designed diameter value of the grease throwing disc is larger than the ball pitch diameter of the bearing, the grease throwing disc is driven to rotate when the shaft rotates, centrifugal force is generated on lubricating grease flowing into the grease throwing disc, the lubricating grease is pushed to flow into a grease discharging channel of the bearing, and meanwhile, the lubricating grease is prevented from overflowing below the oil baffle disc; the grease discharging port of the grease discharging box is designed asymmetrically, and the grease discharging port is slightly lower than the symmetric center of the grease discharging box, so that lubricating grease can flow into the grease discharging port more easily.

Drawings

Fig. 1 is the utility model discloses a structure schematic diagram of oil injection and discharge structure of vertical motor bearing.

Detailed Description

In order to better understand the technical solution of the present invention, the following detailed description is made by specific embodiments:

referring to fig. 1, the oil injection and discharge structure for the vertical motor bearing of the present invention includes a shaft 7, a rolling bearing 3, a bearing housing 5, a bearing outer cover 1, a bearing inner cover 6, an oil injection channel 11, an oil baffle disc 2, an oil thrower disc 8, and an oil discharge box 5.

To vertical motor bearing, the vertical setting of axle 7, antifriction bearing 3 cup joints in the top of axle 7, and bearing housing 5 cup joints in the antifriction bearing 3 outside, and two directions sealed antifriction bearing 3 from top to bottom are followed respectively to bearing enclosing cover 1 and bearing inner cup 6. The bearing outer cover 1, the bearing sleeve 5 and the bearing inner cover 6 form a closed bearing space.

The grease injection channel 11 is arranged on the side of the outer cover of the bearing and consists of a section of horizontal channel and a vertical channel at one end, and the vertical channel directly leads to a roller path on the rolling bearing 3.

The oil baffle disc 2 is sleeved on the top of the shaft 7 and located above the rolling bearing 3, and the extension of the oil baffle disc 2 is matched with the inner wall of the bearing outer cover 1 to form a spigot so as to prevent injected lubricating grease from overflowing above the oil baffle disc 2. The lower part of the matching spigot of the extension of the inner wall of the bearing outer cover 1 and the oil baffle disc 2 is provided with a matching clearance 12, and the matching clearance 12 can make lubricating grease enter the bearing raceway more easily. The oil baffle disc 2 is fixed on the top of the shaft 7 through bolts, and the connection between the oil baffle disc and the shaft is ensured to be stable.

The hydro-extracting cage 8 cup joints the below that lies in antifriction bearing 3 on axle 7, and the inner wall of bearing inner cup 6 is equipped with joint groove structure, and the outer peripheral face of axle 7 is equipped with stair structure, and the lower surface of hydro-extracting cage 8 is equipped with the joint structure who matches with joint groove structure and stair structure to it is fixed with bearing inner cup 6 and axle 7 joint through joint structure. The side of the oil thrower 8 is obliquely arranged downwards to form a slope structure, so that lubricating grease falling on the oil thrower 8 is facilitated to flow downwards; the diameter of the oil thrower 8 is larger than or equal to the ball pitch diameter of the rolling bearing 3, so that enough power is provided for throwing the lubricating grease into the grease discharging box 5, and meanwhile, the lubricating grease is prevented from overflowing below the oil baffle.

The bearing inner cover 6 is provided on one side with a grease drain 61 leading to the bearing space, which grease drain faces the side edge of the oil slinger 8. The grease discharging box 5 is connected with the grease discharging channel 61. The grease discharging port 51 of the grease discharging box 5 is lower than the symmetrical center of the grease discharging box 5 so as to be beneficial to grease discharging operation, and the grease discharging port 51 is connected with an external grease pumping pipe.

When grease is injected from the grease injection passage 11, it reaches the vertical passage by the pressing force, and then enters downward into the raceway of the ball bearing 3 by its own weight. The grease then falls down the oil slinger 8, along the side edges of the oil slinger 8 into the grease discharge channel 61 by centrifugal force from the rotation of the oil slinger 8, and then flows into the grease discharge box 5 to be discharged through the grease discharge port 51.

It will be appreciated by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as limitations of the present invention, and that changes and modifications to the above described embodiments will fall within the scope of the claims of the present invention as long as they are within the spirit and scope of the present invention.

Claims

1. The oil injection and discharge structure of the vertical motor bearing comprises a shaft, a rolling bearing, a bearing sleeve, a bearing outer cover and a bearing inner cover, wherein the shaft is vertically arranged, the rolling bearing is sleeved at the top end of the shaft, the bearing sleeve is sleeved outside the rolling bearing, and the bearing outer cover and the bearing inner cover respectively seal the rolling bearing from the upper direction and the lower direction;

2. The oil filling and discharging structure of the vertical motor bearing as claimed in claim 1, wherein a fitting clearance is provided below the inner wall of the bearing outer cover and the extended fitting spigot of the oil baffle disc.

3. The oil filling and discharging structure of the vertical motor bearing as claimed in claim 2, wherein the windage tray is fixed to the top of the shaft by bolts.

4. The oil filling and discharging structure of the vertical motor bearing as claimed in claim 1, wherein the side of the oil thrower is disposed diagonally downward to form a slope structure.

5. The oil injection and discharge structure of the vertical motor bearing as claimed in claim 4, wherein the diameter of the oil thrower is greater than or equal to the ball pitch diameter of the rolling bearing.

6. The oil injection and discharge structure of the vertical motor bearing as claimed in claim 5, wherein a clamping groove structure is arranged on the inner wall of the bearing inner cover, and a clamping structure matched with the clamping groove structure is arranged on the lower surface of the oil thrower and is clamped and fixed with the bearing inner cover through the clamping structure.

7. The oil injection and discharge structure of the vertical motor bearing as claimed in claim 5, wherein a stepped structure is provided on the outer peripheral surface of the shaft, and a clamping structure matched with the stepped structure is provided on the lower surface of the oil thrower and is clamped and fixed with the shaft through the clamping structure.

8. The oil filling and discharging structure of the vertical motor bearing as claimed in claim 1, wherein the grease discharging port of the grease discharging box is lower than the symmetry center of the grease discharging box.

9. The oil filling and discharging structure of the vertical motor bearing as claimed in claim 8, wherein the grease discharging port is connected with a grease pumping pipe.