CN212231231U - Double-labyrinth oil seal structure for mining motor - Google Patents
Double-labyrinth oil seal structure for mining motor Download PDFInfo
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- CN212231231U CN212231231U CN202021194377.2U CN202021194377U CN212231231U CN 212231231 U CN212231231 U CN 212231231U CN 202021194377 U CN202021194377 U CN 202021194377U CN 212231231 U CN212231231 U CN 212231231U
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Abstract
The utility model discloses a double-labyrinth oil seal structure for a mining motor, which comprises a bearing, wherein the inner ring of the bearing is connected with a motor rotating shaft, the outer side of the bearing is connected with an end cover, and a sealing ring is arranged between the end cover and the motor rotating shaft; the end cover is connected with the bearing inner cover through a bolt; the motor rotating shaft is provided with a step diameter, and a groove arranged on the bearing inner cover corresponding to the step diameter forms a first cavity; the bearing inner cover and the labyrinth cover are fixed into a whole through bolts; the labyrinth cover is provided with a plurality of groups of convex rings, the convex rings correspond to a plurality of groups of concave rings on the bearing inner cover, and the height of each convex ring is smaller than the depth of each concave ring; corresponding grooves are also arranged between the labyrinth cover and the bearing inner cover to form a second cavity; the first cavity is filled with grease. The utility model has the advantages that: the negative pressure between lubricating oil and the motor cavity needs to be shared by a plurality of cavities, so that the pressure difference is reduced, the outflow power of the lubricating oil is reduced, and the lubrication of the rotating shaft is ensured.
Description
Technical Field
The utility model relates to a motor manufacturing technology field specifically is a shaft seal structure of motor.
Background
The mining motor is characterized by small volume, large power and severe use environment, so the sealing structure of the motor is extremely important. The existing sealing structure of a mine motor shaft is as follows: the bearing is arranged in the bearing cover, the sealing ring is arranged between the bearing cover on one side of the bearing and the rotating shaft, the bearing inner cover is arranged on the other side of the bearing, and the lubricating cavity is arranged between the bearing inner cover and the bearing. The disadvantages of this structure are: because the motor chamber is the negative pressure at the during operation, lubricating oil in the lubricated intracavity can follow the clearance flow direction motor chamber between bearing inner cup and the pivot, has not only caused the disappearance of lubricating oil, takes place the damage of pivot moreover easily.
Disclosure of Invention
In order to solve the technical problems, the utility model aims to provide a sealing structure, which can reduce the pressure difference between a lubricating oil cavity and a motor cavity and effectively reduce the loss of lubricating oil by arranging a plurality of groups of cavities; the specific technical scheme is as follows:
a double-labyrinth oil seal structure for a mining motor comprises a bearing, wherein an inner ring of the bearing is connected with a motor rotating shaft, the outer side of the bearing is connected with an end cover, and a sealing ring is arranged between the end cover and the motor rotating shaft; the end cover is connected with the bearing inner cover through a bolt; the motor rotating shaft is provided with a step diameter, and a groove arranged on the bearing inner cover corresponding to the step diameter forms a first cavity; the bearing inner cover and the labyrinth cover are fixed into a whole through bolts; the labyrinth cover is provided with a plurality of groups of convex rings, the convex rings correspond to a plurality of groups of concave rings on the bearing inner cover, and the height of each convex ring is smaller than the depth of each concave ring; corresponding grooves are also arranged between the labyrinth cover and the bearing inner cover to form a second cavity; the first cavity is filled with grease.
The width of the outer side protrusion of the labyrinth cover is smaller than that of the outer side groove of the bearing inner cover, and a cavity structure is formed.
The labyrinth cover sets up 2 sets of bulge loops, and the corresponding 2 sets of concave rings that set up in the bearing inner cup.
The utility model has the advantages that: because the second cavity and the small cavities formed by the concave rings of the convex rings are arranged between the lubricating oil cavity (namely the first cavity) and the motor cavity, and only the first cavity is filled with oil, the negative pressure between the lubricating oil and the motor cavity needs to be jointly borne by the cavities, so that the pressure difference is reduced, the outflow power of the lubricating oil is reduced, and the lubrication of the rotating shaft is ensured.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Detailed Description
The utility model is described in detail with the attached drawings, as shown in the figures, the utility model comprises a bearing 2, the inner ring of the bearing 2 is connected with a motor rotating shaft 1, the outer side of the bearing is connected with an end cover 3, and a sealing ring 4 is arranged between the end cover and the motor rotating shaft; the end cover 3 is connected with the bearing inner cover 5 through a bolt; the motor rotating shaft is provided with a step diameter 14, and a groove corresponding to the step diameter 14 and arranged on the bearing inner cover 5 forms a first cavity 9; the bearing inner cover and the labyrinth cover 6 are fixed into a whole through bolts; the labyrinth cover is provided with a plurality of groups of convex rings 8, the convex rings correspond to a plurality of groups of concave rings 7 on the bearing inner cover, and the height of the convex rings is smaller than the depth of the concave rings, so that a plurality of small cavities 12 are formed; a corresponding groove is arranged between the labyrinth cover 5 and the bearing inner cover 3 to form a second cavity 10; the first cavity 9 is filled with grease.
In order to further increase the sealing effect and reduce the pressure difference, the width of the outer side bulge of the labyrinth cover is smaller than that of the outer side groove of the bearing inner cover, and a cavity structure 13 is formed.
The labyrinth cover is provided with 2 groups of convex rings, and the bearing inner cover is correspondingly provided with 2 groups of concave rings, of course, 3 groups or 4 groups can be arranged according to actual requirements;
the principle of the utility model is that: the lubricating oil in the first cavity flows along a gap between the bearing inner cover and the motor rotating shaft under the action of negative pressure (the negative pressure refers to the pressure difference between the first cavity and the motor cavity), when the lubricating oil meets the first small cavity, namely the position a in the figure 1, the lubricating oil can be gathered again due to the small cavity, the lubricating oil continues to flow to the second cavity along a labyrinth passage between the small cavities after being gathered, the lubricating oil is finally gathered in the second cavity, and a small part of the lubricating oil finally flows to the motor cavity from the cavity structure 13. And the lubricating oil gathered to the small cavity a further lubricates the space between the motor rotating shaft and the labyrinth cover, so that the integral lubricating effect of the motor rotating shaft is ensured.
Claims (3)
1. The utility model provides a mining motor is with two labyrinth oil seal structures which characterized in that: the bearing comprises a bearing, wherein an inner ring of the bearing is connected with a motor rotating shaft, the outer side of the bearing is connected with an end cover, and a sealing ring is arranged between the end cover and the motor rotating shaft; the end cover is connected with the bearing inner cover through a bolt; the motor rotating shaft is provided with a step diameter, and a groove arranged on the bearing inner cover corresponding to the step diameter forms a first cavity; the bearing inner cover and the labyrinth cover are fixed into a whole through bolts; the labyrinth cover is provided with a plurality of groups of convex rings, the convex rings correspond to a plurality of groups of concave rings on the bearing inner cover, and the height of each convex ring is smaller than the depth of each concave ring; corresponding grooves are also arranged between the labyrinth cover and the bearing inner cover to form a second cavity; the first cavity is filled with grease.
2. The double labyrinth oil seal structure for the mining motor according to claim 1, characterized in that: the width of the outer side protrusion of the labyrinth cover is smaller than that of the outer side groove of the bearing inner cover, and a cavity structure is formed.
3. The double labyrinth oil seal structure for the mining motor according to claim 1, characterized in that: the labyrinth cover sets up 2 sets of bulge loops, and the corresponding 2 sets of concave rings that set up in the bearing inner cup.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021194377.2U CN212231231U (en) | 2020-06-24 | 2020-06-24 | Double-labyrinth oil seal structure for mining motor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021194377.2U CN212231231U (en) | 2020-06-24 | 2020-06-24 | Double-labyrinth oil seal structure for mining motor |
Publications (1)
Publication Number | Publication Date |
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CN212231231U true CN212231231U (en) | 2020-12-25 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202021194377.2U Active CN212231231U (en) | 2020-06-24 | 2020-06-24 | Double-labyrinth oil seal structure for mining motor |
Country Status (1)
Country | Link |
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CN (1) | CN212231231U (en) |
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2020
- 2020-06-24 CN CN202021194377.2U patent/CN212231231U/en active Active
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