阅读说明：本技术 一种带润滑油通路的简支轮 (Simple supporting wheel with lubricating oil passage ) 是由 郑瓛 邸南思 魏珉 徐平 张政伟 于 2018-10-16 设计创作，主要内容包括：本发明属于闸门技术领域,具体涉及一种带润滑油通路的简支轮,包括轮轴、轮毂和轴承；轴承一侧端面与相邻的轴承盖形成第一油腔,轴承另一侧端面与相邻的轴承盖形成第二油腔,第一油腔和第二油腔分别连通轴承外圈和轴承内圈之间的安装腔；所述轮轴一端轴向设置有第一输油孔,轮轴另一端轴向设置有第二输油孔；第一输油孔末端通过径向设置在轮轴上的第一透油孔连通同侧的第一油腔,第二输油孔末端通过径向设置在轮轴上的第二透油孔连通同侧的第二油腔。本发明提供的带润滑油通路的简支轮,装配简单,密封条件良好,可在不进行拆解状态下完成润滑油更换的简支轮。(The invention belongs to the technical field of gates, and particularly relates to a simple supporting wheel with a lubricating oil passage, which comprises a wheel shaft, a wheel hub and a bearing; the end surface of one side of the bearing and the adjacent bearing cover form a first oil cavity, the end surface of the other side of the bearing and the adjacent bearing cover form a second oil cavity, and the first oil cavity and the second oil cavity are respectively communicated with an installation cavity between the outer ring of the bearing and the inner ring of the bearing; a first oil conveying hole is axially formed in one end of the wheel shaft, and a second oil conveying hole is axially formed in the other end of the wheel shaft; the tail end of the first oil delivery hole is communicated with the first oil cavity on the same side through a first oil penetrating hole radially arranged on the wheel shaft, and the tail end of the second oil delivery hole is communicated with the second oil cavity on the same side through a second oil penetrating hole radially arranged on the wheel shaft. The simple supporting wheel with the lubricating oil passage provided by the invention is simple to assemble, has good sealing condition, and can finish the replacement of the lubricating oil under the condition of not disassembling.)

1. A simple supporting wheel with a lubricating oil passage comprises a wheel shaft (3), a wheel hub (1) and a bearing (7), wherein the wheel shaft (3) is tightly matched with a bearing inner ring (7a), the wheel hub (1) is tightly matched with a bearing outer ring (7b), bearing covers (2) are arranged on two sides of the bearing (7), and the bearing covers (2) are respectively in sealing fit with the wheel hub (1) and the wheel shaft (3); a first oil chamber (Q1) is formed by the end face of one side of the bearing (7) and the adjacent bearing cover (2), a second oil chamber (Q2) is formed by the end face of the other side of the bearing (7) and the adjacent bearing cover (2), and the first oil chamber (Q1) and the second oil chamber (Q2) are respectively communicated with a mounting chamber between the bearing outer ring (7b) and the bearing inner ring (7 a);

the method is characterized in that: a first oil conveying hole (U1) is axially formed in one end of the wheel shaft (3), and a second oil conveying hole (U2) is axially formed in the other end of the wheel shaft (3); the tail end of the first oil transmission hole (U1) is communicated with a first oil chamber (Q1) on the same side through a first oil penetration hole (T1) arranged on the axle (3) in the radial direction, and the tail end of the second oil transmission hole (U2) is communicated with a second oil chamber (Q2) on the same side through a second oil penetration hole (T2) arranged on the axle (3) in the radial direction; the first oil conveying hole (U1) and the second oil conveying hole (U2) are not communicated in the axial direction.

2. The simple wheel with lubricating oil passage according to claim 1, characterized in that: the bearing (7) is a self-aligning roller bearing (7).

3. The simple wheel with lubricating oil passage according to claim 2, characterized in that: bearing cap (2) include bearing enclosing cover (2a) and bearing inner cup (2b), and bearing inner cup (2b) cover is established on shaft (3) and with shaft (3) tight fit, bearing enclosing cover (2a) sliding seal cooperation in the bearing inner cup (2b) outside, and the contact surface of bearing enclosing cover (2a) and bearing inner cup (2b) is the sphere, and the sphere centre of sphere is unanimous with the centre of rotation of self-aligning roller bearing (7).

4. The simple wheel with lubricating oil passage according to claim 3, characterized in that: an outer annular boss (2a1) is arranged on the inner side of the bearing outer cover (2a), and the outer annular boss (2a1) abuts against the end face of the bearing outer ring (7 b); an inner annular boss (2b1) is arranged on the inner side of the bearing inner cover (2b), the inner annular boss (2b1) abuts against the end face of the bearing inner ring (7a), and an oil penetrating groove (2b2) is formed in the inner annular boss (2b 1).

5. The simple wheel with lubricating oil passage according to claim 3, characterized in that: a sealing ring (M1) is arranged between the inner side surface of the bearing outer cover (2a) and the end surface of the hub (1); a sealing ring (M2) is arranged between the contact surfaces of the bearing outer cover (2a) and the bearing inner cover (2 b); and a sealing ring (M3) is arranged between the inner hole wall of the bearing inner cover (2b) and the outer wall of the wheel shaft (3).

6. The simple wheel with lubricating oil passage according to claim 1, characterized in that: the openings of the first oil conveying hole (U1) and the second oil conveying hole (U2) at the end part of the wheel axle (3) are respectively blocked by an oil cup (4).

7. The simple wheel with lubricating oil passage according to claim 1, characterized in that: the first oil penetrating holes (T1) are radially distributed on the wheel axle (3), and the second oil penetrating holes (T2) are radially distributed on the wheel axle (3).

8. The simple wheel with lubricating oil passage as set forth in claim 4, wherein: the oil penetration grooves (2b2) are circumferentially and uniformly distributed on the inner annular boss (2b 1).

Technical Field

The invention belongs to the technical field of gates, and particularly relates to a simple supporting wheel with a lubricating oil passage.

Background

In water conservancy and hydropower engineering, a simple supporting wheel is used as a gate part, and under the condition of higher water head and higher total water pressure, the simple supporting wheel adopting a self-lubricating joint bearing is mostly used as a supporting device in the past; however, with the development of the industry and the updating of technical conditions, in many cases, in order to further reduce the friction force and reduce the size of hoist equipment, more and more simple supporting wheels adopting self-aligning roller bearings are required to be used.

In the actual operation process, the self-aligning roller bearing greatly reduces the friction force, but oil (or grease) lubrication is mostly adopted during the operation, and the lubricating oil is difficult to fill or replace due to the fact that the application water head is often high, and the lubricating oil is required to be filled or replaced after disassembly.

Disclosure of Invention

The invention aims to provide a simple supporting wheel with a lubricating oil passage, which is simple to assemble and good in sealing condition and can finish the replacement of the lubricating oil without disassembly.

The purpose of the invention is realized as follows: a simple supporting wheel with a lubricating oil passage comprises a wheel shaft, a wheel hub and a bearing, wherein the wheel shaft is tightly matched with an inner ring of the bearing, the wheel hub is tightly matched with an outer ring of the bearing, bearing covers are arranged on two sides of the bearing, and the bearing covers are respectively matched with the wheel hub and the wheel shaft in a sealing manner; the end surface of one side of the bearing and the adjacent bearing cover form a first oil cavity, the end surface of the other side of the bearing and the adjacent bearing cover form a second oil cavity, and the first oil cavity and the second oil cavity are respectively communicated with an installation cavity between the outer ring of the bearing and the inner ring of the bearing; a first oil conveying hole is axially formed in one end of the wheel shaft, and a second oil conveying hole is axially formed in the other end of the wheel shaft; the tail end of the first oil delivery hole is communicated with a first oil cavity on the same side through a first oil penetrating hole radially arranged on the wheel shaft, and the tail end of the second oil delivery hole is communicated with a second oil cavity on the same side through a second oil penetrating hole radially arranged on the wheel shaft; the first oil delivery hole and the second oil delivery hole are not communicated in the axial direction.

Further, the bearing is a self-aligning roller bearing.

Furthermore, the bearing cover comprises a bearing outer cover and a bearing inner cover, the bearing inner cover is sleeved on the wheel shaft and is tightly matched with the wheel shaft, the bearing outer cover is matched with the outer side of the bearing inner cover in a sliding and sealing mode, the contact surface of the bearing outer cover and the bearing inner cover is a spherical surface, and the spherical center of the spherical surface is consistent with the rotation center of the self-aligning roller bearing.

Further, an outer annular boss is arranged on the inner side of the outer bearing cover and abuts against the end face of the outer bearing ring; an inner annular boss is arranged on the inner side of the bearing inner cover and is abutted against the end face of the bearing inner ring, and an oil penetrating groove is formed in the inner annular boss.

Further, a sealing ring is arranged between the inner side surface of the outer bearing cover and the end surface of the hub; a sealing ring is arranged between the contact surfaces of the bearing outer cover and the bearing inner cover; and a sealing ring is arranged between the inner hole wall of the bearing inner cover and the outer wall of the wheel shaft.

Furthermore, the openings of the first oil transmission hole and the second oil transmission hole at the end part of the wheel axle are respectively blocked by oil cups.

Furthermore, a plurality of first oil penetrating holes are radially distributed on the wheel shaft, and a plurality of second oil penetrating holes are radially distributed on the wheel shaft.

Furthermore, the oil penetrating grooves are circumferentially and uniformly distributed on the inner annular boss.

Compared with the prior art, the invention has the outstanding and beneficial technical effects that:

the lubricating oil way adopts a one-way passage form, and lubricating oil is poured into one side of the bearing and discharged from the other side of the bearing through the axial oil conveying hole and the radial oil penetrating hole; the new lubricating oil discharges the original oil body and fine metal abrasive dust generated by abrasion in the use process through one side of the bearing, so that the replacement of the new lubricating oil and the old lubricating oil is realized, and the disassembly of the simple supporting wheel is avoided.

Drawings

FIG. 1 is an external view of a simple support wheel according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a simple roller in an embodiment of the present invention;

FIG. 3 is a first exploded view of the simple support wheel according to the embodiment of the present invention;

FIG. 4 is a second exploded view of the wheel assembly of the present invention;

FIG. 5 is an internal oil path diagram of the simple support wheel in the embodiment of the present invention;

fig. 6 is an enlarged view at a in fig. 2.

Reference numerals: 1. a hub; 2. a bearing cap; 2a, an outer bearing cover; 2a1, an outer annular boss; 2b, an inner bearing cover; 2b1, inner annular boss; 2b2, oil-permeable tank; 3. a wheel axle; 4. an oil cup; 5. a dead axle plate; 6. a small end retainer ring; 7. a bearing; 7a, a bearing inner ring; 7b, a bearing outer ring; m1, sealing ring; m2, sealing ring; m3, sealing ring; u1, a first oil transfer hole; u2, a second oil conveying hole; t1, a first oil penetration hole; t2, a second oil penetration hole; q1, a first oil chamber; q2, second oil chamber.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

A simple supporting wheel with a lubricating oil passage is combined with a figure 1 and a figure 2 and comprises a wheel shaft 3, a wheel hub 1 and a bearing 7, wherein the wheel shaft 3 is fixedly arranged in a bearing inner ring 7a in a penetrating way, and the wheel hub 1 is fixedly sleeved on the periphery of a bearing outer ring 7 b; the bearing 7 in this embodiment is a self-aligning roller bearing 7 to reduce friction under load and to accommodate the effects of rotor deflection.

Referring to fig. 2 and 6, bearing caps 2 are arranged on two sides of a bearing 7, each bearing cap 2 comprises a bearing outer cap 2a and a bearing inner cap 2b which are concentrically matched, each bearing inner cap 2b is sleeved and fixed on a wheel shaft 3, a sealing ring M3 is arranged between each bearing inner cap 2b and the wheel shaft 3, each bearing outer cap 2a is in clearance fit with the outer side of each bearing inner cap 2b, the matching surfaces of the two bearing outer caps and the wheel shafts are spherical surfaces, each bearing outer cap 2a is an inner concave spherical surface, each bearing inner cap 2b is an outer convex spherical surface, and a sealing ring M2 is arranged between the; the spherical surface matching mode enables the installation process to be in small-angle deviation under a large-span supporting state, the interference condition of the inner bearing cover 2a and the outer bearing cover 2a cannot occur, and the safety and the reliability of the simple supporting wheel design are improved. Wherein, the spherical center of the spherical surface is consistent with the rotation center of the self-aligning roller bearing 7 so as to realize concentric rotation. The outer edge of the bearing outer cover 2a extends to two sides of the hub 1, and a sealing ring M1 is arranged between the bearing outer cover and the hub 1 to realize sealing fit.

With reference to fig. 2-4, an outer annular boss 2a1 is disposed on the inner side of the outer bearing cover 2a, an inner annular boss 2b1 is disposed on the inner side of the inner bearing cover 2b, the outer annular boss 2a1 is used for limiting and abutting against two sides of the outer bearing ring 7b, and the inner annular boss 2b1 is used for limiting and abutting against two sides of the inner bearing ring 7 a; a first oil chamber Q1 and a second oil chamber Q2 are respectively formed among the bearing outer cover 2a, the bearing inner cover 2b and two side surfaces of the bearing 7, and the first oil chamber Q1 and the second oil chamber Q2 are respectively communicated with a mounting chamber for mounting rollers between the bearing outer ring 7b and the bearing inner ring 7 a.

Referring to fig. 2 and 5, a first oil transfer hole U1 is axially formed at one end of the axle 3, and a second oil transfer hole U2 is axially formed at the other end of the axle 3; the ends of the first oil transmission hole U1 and the second oil transmission hole U2 are not communicated. The tail end of the first oil transmission hole U1 is communicated with the first oil chamber Q1 on the same side through a first oil transmission hole T1 arranged on the wheel axle 3 in the radial direction, and the tail end of the second oil transmission hole U2 is communicated with the second oil chamber Q2 on the same side through a second oil transmission hole T2 arranged on the wheel axle 3 in the radial direction. Because the inner annular boss 2b1 blocks between the first oil chamber Q1 and the first oil penetrating hole T1 and between the second oil chamber Q2 and the second oil penetrating hole T2, a plurality of oil penetrating grooves 2b2 can be formed on the inner annular boss 2b1, and the oil penetrating grooves 2b2 are preferably circumferentially and uniformly distributed on the inner annular boss 2b1 (see fig. 3). Meanwhile, in order to increase the diffusion speed of the lubricating oil, the number of the first oil passing holes T1 and the second oil passing holes T2 distributed in the radial direction may be plural.

When in a normal working state, the openings of the first oil transmission hole U1 and the second oil transmission hole U2 at the ends of the wheel axle 3 are respectively blocked by the oil cups 4. Referring to fig. 2 and 5, when the lubricating oil needs to be replaced, the oil cups 4 at two ends are pulled off, new lubricating oil is introduced into the first oil delivery hole U1, passes through the first oil penetration hole T1 and the oil penetration groove 2b2 in sequence along the arrow direction in the figure and enters the first oil chamber Q1, and then the old lubricating oil in the first oil chamber Q1 is extruded to the mounting cavity between the bearing inner ring 7a and the bearing outer ring 7b, finally flows to the second oil chamber Q2 and the second oil penetration hole T2 along the arrow direction and is discharged from the opening of the second oil delivery hole U2; when the lubricating oil finally discharged from the second oil delivery hole U2 is clearer, the new and old lubricating oil in the simple support wheel is replaced completely, and the oil cups 4 at the two ends of the wheel shaft 3 are plugged again.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.