CN212313715U - Track roller assembly - Google Patents

Track roller assembly Download PDF

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Publication number
CN212313715U
CN212313715U CN202020730036.6U CN202020730036U CN212313715U CN 212313715 U CN212313715 U CN 212313715U CN 202020730036 U CN202020730036 U CN 202020730036U CN 212313715 U CN212313715 U CN 212313715U
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wheel
cap
roller assembly
track roller
oil
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CN202020730036.6U
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Chinese (zh)
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江春立
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Everpads Co Ltd
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Everpads Co Ltd
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Priority to CN202020730036.6U priority Critical patent/CN212313715U/en
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Publication of CN212313715U publication Critical patent/CN212313715U/en
Priority to JP2021078542A priority patent/JP7544384B2/en
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Abstract

The utility model discloses a track thrust wheel subassembly, it contains wheel body, bearing, shaft, the cap body, rotatory oil blanket, end cover, the oil body and first bolt. The wheel body is provided with threads, the bearing is arranged on the wheel body, and the wheel shaft penetrates through the bearing. The cap body is provided with screw threads corresponding to the screw threads, one side of the rotary oil seal is connected with the cap body, and the other side of the rotary oil seal is rotationally abutted to the wheel shaft. The end cover is connected with the wheel shaft, the oil body is limited in an accommodating space formed by the wheel body, the wheel shaft, the cap body and the rotary oil seal, and the first bolt is connected with the cap body and the wheel body. Therefore, the utility model discloses a track thrust wheel subassembly is locked in the wheel body and is combined rotatory oil blanket through cap body spiral shell, can prevent that the oil body from spilling over, and then reduces the probability of oil leak by a wide margin. In addition, the oil body can be always maintained in the accommodating space under the influence of gravity, so that the bearing can continuously operate to prevent the track roller assembly from losing efficacy.

Description

Track roller assembly
Technical Field
The utility model relates to a thrust wheel subassembly, especially about a track thrust wheel subassembly.
Background
Track roller assemblies (e.g., those of excavators or tractors) are often subjected to extreme operating conditions and are subject to significant stress and wear. Track roller assemblies are more susceptible to damage when operating in extreme conditions in mountainous and rocky terrain. As a result, track roller assemblies have problems with high maintenance costs, wear resulting in short life, and other structural issues. The solution to these problems is the need to constantly keep the track roller assemblies well lubricated. However, when the roller assembly is operated in a difficult area, the leakage of the lubricating oil from the inner area to the outer area of the roller assembly is often caused, and the maintenance cost for repairing the leakage or replacing the entire roller assembly is greatly increased. While other structural problems include high part count of the build assembly, complex manufacturing processes, and handling of oil lubricants during build.
Prior track roller assemblies utilize a pair of laterally spaced end caps attached to an axle and adapted to support the axle within a blind bore defined by a cylindrical inner wall and an end wall. A bearing assembly is mounted in this blind bore and is interposed between the end cap and the axle and is formed of a sleeve-type cylindrical bushing fixedly supported by the inner wall and a disc-type thrust washer fixed to the end wall. Vertically extending channels in the end wall accommodate oil body lubricants such as: the oil mass may be directed to the bogie wheel assembly through an orifice. Although the prior track roller assembly uses bushings and thrust washers, it fails to solve the long-standing problem of oil leakage, i.e., the problem of oil body leakage that is likely to occur under extreme operating conditions. Therefore, the prior art lacks a track roller assembly that can prevent oil leakage and does not fail, so the related manufacturers seek solutions.
SUMMERY OF THE UTILITY MODEL
Therefore, an object of the utility model is to provide a track thrust wheel subassembly, it utilizes the cap body lock in the wheel body, and the rotatory oil blanket of collocation cap body combination can prevent that the oil body from spilling over, and then reduces the probability of oil leak by a wide margin to let track thrust wheel subassembly not become invalid.
An embodiment of the utility model is a track thrust wheel subassembly, it contains wheel body, bearing, shaft, the cap body, rotatory oil blanket, end cover, the oil body and first bolt. The wheel body is provided with threads, the bearing is arranged on the wheel body, and the wheel shaft penetrates through the bearing. The cap body is provided with screw teeth corresponding to the screw threads, and the screw teeth are engaged in the screw threads corresponding to the screw locks. One side of the rotary oil seal is connected with the cap body, and the other side of the rotary oil seal is rotationally abutted to the wheel shaft. The end cover is connected with the wheel shaft, and the oil body is limited in a containing space formed by the wheel body, the wheel shaft, the cap body and the rotary oil seal. The first bolt is connected with the cap body and the wheel body.
Therefore, the utility model discloses a track thrust wheel subassembly is locked in the wheel body and is combined rotatory oil blanket through cap body spiral shell, can prevent that the oil body from spilling over, and then reduces the probability of oil leak by a wide margin to let track thrust wheel subassembly not become invalid.
Other examples according to the foregoing embodiments are as follows: the track roller assembly may include an O-ring disposed between the cap and the roller body, the O-ring being made of a plastic material. Furthermore, the inner wall of the wheel body is provided with a ring groove, and an O-shaped ring is arranged between the ring groove and the cap body.
Other examples according to the foregoing embodiments are as follows: the track roller assembly may include a limiting member disposed between the cap body and the roller body, the limiting member limiting the cap body. In addition, the inner wall ring of the wheel body can be provided with a limit groove, and the limiting part is arranged between the limit groove and the cap body. In addition, the limiting member may comprise a first limiting section and a second limiting section, the first limiting section is connected with the second limiting section, and the first limiting section is embedded in the limiting groove. The cap body comprises at least one fixing groove, and the second limiting section is embedded in the at least one fixing groove.
Other examples according to the foregoing embodiments are as follows: the outer wall of the cap body is provided with a plurality of clamping grooves which are arranged at intervals. The inner wall of the wheel body is provided with a plurality of limiting grooves, and the limiting part is arranged between one limiting groove and one clamping groove of the cap body.
Other examples according to the foregoing embodiments are as follows: the track roller assembly may include a second latch that removably couples the end cap to the axle. Furthermore, the rotary oil seal may include at least one oil blocking portion and a dust preventing portion, wherein the at least one oil blocking portion is rotatably abutted against the wheel axle and is close to the oil body. The dustproof part is rotatably abutted against the wheel shaft and is far away from the oil body.
Another embodiment of the present invention is a track roller assembly, which comprises two rollers, two bearings, a roller shaft, two caps, two rotary oil seals, two end caps, an oil body and at least one first pin. The two wheels are connected to each other, each wheel having a thread. The two bearings are respectively arranged on the two wheel bodies, and the wheel shaft penetrates through the two bearings. Each cap body is provided with a thread corresponding to the thread, and the thread is engaged in the thread corresponding to the thread lock. One side of each rotary oil seal is connected with each cap body, and the other side of each rotary oil seal is rotatably abutted against the wheel shaft. The two end covers are respectively connected with the two opposite ends of the wheel shaft, and the oil body is limited in a containing space formed by the two wheel bodies, the wheel shaft, the two cap bodies and the two rotary oil seals. At least one first bolt is connected with a cap body and a wheel body.
Therefore, the utility model discloses a track thrust wheel subassembly is through two cap body difference spiro locks in two wheel bodies and combine two rotatory oil seals, and it borrows the structure of symmetry to realize whole subassembly, not only can reduce the probability of oil leak by a wide margin, still can let track thrust wheel subassembly not become invalid.
Other examples according to the foregoing embodiments are as follows: the track roller assembly may include two O-rings, each O-ring disposed between each cap and each wheel body, each O-ring being made of a plastic material. In addition, the inner wall of each wheel body is provided with a ring groove, and each O-shaped ring is arranged between each ring groove and each cap body.
Other examples according to the foregoing embodiments are as follows: the track thrust wheel assembly may include two limiting members, each limiting member being disposed between each cap body and each wheel body, each limiting member limiting each cap body. Furthermore, the inner wall of each wheel body is annularly provided with a limiting groove, and each limiting part is arranged between the limiting groove and each cap body. In addition, each locating part comprises a first locating section and a second locating section, the first locating section is connected with the second locating section, and the first locating section is embedded in the locating groove. Each cap body comprises at least one fixing groove, and the second limiting section is embedded in the at least one fixing groove.
Other examples according to the foregoing embodiments are as follows: the outer wall of each cap body is provided with a plurality of clamping grooves which are arranged at intervals. The inner wall of each wheel body is provided with a plurality of limiting grooves, and the limiting part is arranged between one limiting groove and one clamping groove of the cap body.
Other examples according to the foregoing embodiments are as follows: the track roller assembly may include two second latches, each second latch removably coupling each end cap to the axle. In addition, each rotary oil seal comprises at least one oil blocking part and a dust preventing part, wherein the at least one oil blocking part is rotatably abutted against the wheel shaft and is close to the oil body, and the dust preventing part is rotatably abutted against the wheel shaft and is far away from the oil body.
Drawings
In order to make the above and other objects, features, advantages and embodiments of the present invention more comprehensible, the following description of the accompanying drawings is given:
fig. 1 is a perspective view of a track roller assembly according to an embodiment of the present invention;
FIG. 2 illustrates an exploded view of the track roller assembly of FIG. 1;
FIG. 3 depicts a cross-sectional schematic view of the track roller assembly of FIG. 1;
FIG. 4 depicts a partially cut-away schematic view of the track roller assembly of FIG. 1;
FIG. 5 depicts a schematic view of the body of the track roller assembly of FIG. 1;
FIG. 6 is a schematic diagram of the assembly of the wheel body, the cap and the position-limiting member of the track roller assembly shown in FIG. 1;
FIG. 7 is a perspective view of a track roller assembly according to another embodiment of the present invention;
FIG. 8 illustrates a schematic view of a wheel body of a track roller assembly according to yet another embodiment of the present invention;
FIG. 9 is a schematic cross-sectional view of the wheel of FIG. 8;
FIG. 10 illustrates a schematic view of a cap of a track roller assembly according to yet another embodiment of the present invention;
FIG. 11 depicts a cross-sectional schematic view of the cap of FIG. 10;
FIG. 12 is a schematic view of a wheel, a cap and a position-limiting member according to yet another embodiment of the present invention;
fig. 13A is a schematic side view of a track roller assembly according to yet another embodiment of the present invention;
FIG. 13B depicts a cross-sectional schematic view of the track roller assembly of FIG. 13A along section line A-A;
FIG. 14A illustrates a side view of a track roller assembly according to yet another embodiment of the present invention; and
FIG. 14B depicts a cross-sectional view of the track roller assembly of FIG. 14A along section line B-B.
Description of the main reference numerals:
100. 100a, 100c, 100 d-track roller assembly, 110-containing space, 200a, 200b, 200c, 200 d-wheel body, 210-screw thread, 220-ring groove, 230 a-spacing groove, 240-spacing groove, 300-bearing, 400-wheel shaft, 500a, 500b, 500c, 500 d-cap body, 510-screw tooth, 520-fixing groove, 530-spacing part, 540-clamping groove, 600-rotary oil seal, 610-oil blocking part, 620-dust-proof part, 700-end cap, 800-oil body, 900-O ring, 1000a, 1000 b-limiting part, 1002-first limiting section, 1004-second limiting section, 1100-second bolt, 1200c, 1200 d-first bolt.
Detailed Description
The embodiments of the present invention will be described below with reference to the accompanying drawings so that those skilled in the art can fully utilize and practice the present invention without undue interpretation and experimentation. However, the reader should understand that these practical details should not be used to limit the present invention, that is, these practical details are not necessary in some embodiments of the present invention. In addition, some conventional structures and elements are shown in simplified schematic form in the drawings for the sake of simplifying the drawings, and repeated elements may be represented by the same numerals.
In addition, when an element (or a mechanism or module, etc.) is "connected," "disposed" or "coupled" to another element, it can be directly connected, disposed or coupled to the other element, or it can be indirectly connected, disposed or coupled to the other element, that is, there are other elements between the element and the other element. When an element is explicitly connected, directly disposed, or directly coupled to another element, it is intended that no other element is interposed between the element and the other element. The terms first, second, third, etc. are used merely to describe various elements or components, but the elements/components themselves are not limited, and thus, the first element/component may be alternatively referred to as the second element/component. And the combination of elements/components/mechanisms/modules herein is not a commonly known, conventional or existing combination in the art, and cannot be readily determined by one of ordinary skill in the art based on whether the elements/components/mechanisms/modules are present.
Referring to fig. 1 to 6, fig. 1 is a perspective view illustrating a track roller assembly 100 according to an embodiment of the present invention; FIG. 2 illustrates an exploded view of the track roller assembly 100 of FIG. 1; FIG. 3 depicts a cross-sectional schematic view of the track roller assembly 100 of FIG. 1; FIG. 4 depicts a partially cut-away schematic view of the track roller assembly 100 of FIG. 1; FIG. 5 illustrates a schematic view of the body 200 of the track roller assembly 100 of FIG. 1; fig. 6 is a schematic diagram illustrating the wheel body 200, the cap 500 and the stopper 1000 of the track roller assembly 100 of fig. 1. As shown, the track roller assembly 100 includes two rollers 200, two bearings 300, a roller axle 400, two caps 500, two rotary oil seals 600, two end caps 700, an oil body 800, two O-rings 900, two stoppers 1000, and two second pins 1100.
The two wheels 200 are connected to each other, wherein one wheel 200 includes a protrusion, and the other wheel 200 includes a recess, and the protrusion is engaged with the recess to tightly couple the two wheels 200. In addition, each wheel body 200 is hollow and cylindrical and includes a thread 210, a ring groove 220 and a limiting groove 230. The screw 210 is used for screwing the cap body 500, the ring groove 220 is disposed on the inner wall of each wheel body 200 and is used for accommodating the O-ring 900, and the limiting groove 230 is disposed on the inner wall of each wheel body 200 and is used for accommodating the limiting member 1000. The outer side surface of each wheel body 200 is connected to the crawler belt, so that each wheel body 200 rotates. In other embodiments, the two wheels may be integrally formed, and the above description is not limited thereto.
The two bearings 300 are respectively disposed on the two wheel bodies 200, and the wheel axle 400 is disposed through the two bearings 300. The two bearings 300 have the same structure, and each bearing 300 is pivoted between each wheel 200 and the axle 400.
Each cap 500 has a thread 510 corresponding to the thread 210, the thread 510 corresponding to the thread 210 being threadedly engaged. In addition, each cap 500 is hollow and annular and includes an inner annular surface and a bottom surface, the inner annular surface abuts against each rotary oil seal 600, and the bottom surface abuts against each bearing 300.
One side (outer side) of each rotary oil seal 600 is connected to the inner ring surface of each cap 500, and the other side (inner side) of each rotary oil seal 600 rotatably abuts the wheel shaft 400. Specifically, each rotary oil seal 600 includes three oil blocking portions 610 and three dust-proof portions 620, wherein the oil blocking portions 610 rotatably abut against the axle 400 and are close to the oil body 800, and the oil blocking portions 610 can block the oil body 800 from leaving the accommodating space 110. The receiving space 110 is a space formed between the two wheel bodies 200, the axle 400, the two cap bodies 500 and the two rotary oil seals 600. The dust-proof portion 620 is rotatably abutted against the axle 400 and away from the oil body 800, and the dust-proof portion 620 is inclined towards the X-axis direction (i.e. the axial direction of the axle 400) and can block external dust from entering the accommodating space 110. Each of the oil blocking portion 610 and the dust preventing portion 620 is made of a soft material and is directly connected to the wheel axle 400. When the crawler moves, each wheel body 200, each cap body 500 and each rotary oil seal 600 are linked and rotate relative to the wheel shaft 400; in other words, when the track moves, each of the oil blocking portion 610 and the dust blocking portion 620 rotates relative to the axle 400 to rub against the axle 400. In other embodiments, the number of the oil blocking portions may be adjusted according to the requirement, and is not limited to the above.
The two end caps 700 are respectively connected to two opposite ends of the axle 400, the two end caps 700 are fixed to the track frame by screws, and the screw structure is prior art and thus will not be described again.
The oil body 800 is limited in the accommodating space 110 formed by the two wheel bodies 200, the wheel axle 400, the two cap bodies 500 and the two rotary oil seals 600. The oil body 800 serves to lubricate the two bearings 300, thereby allowing the track roller assembly 100 to normally rotate.
Each O-ring 900 is disposed between each cap body 500 and each wheel body 200, and each O-ring 900 is made of a plastic material. Each O-ring 900 is disposed between the ring groove 220 of each wheel 200 and each cap 500. When the threads 510 of each cap 500 are engaged with the threads 210 of each wheel 200, the O-rings 900 are pressed and deformed by the ring grooves 220 of each cap 500 and each wheel 200 to fill the gaps between each cap 500 and each wheel 200, thereby preventing the oil body 800 from leaking out and achieving oil-tight effect.
Each limiting member 1000 is disposed between each cap body 500 and each wheel body 200, and each limiting member 1000 limits each cap body 500. That is, each of the stoppers 1000 prevents each of the caps 500 from being displaced in the X-axis direction, and each of the stoppers 1000 is disposed between the stopper groove 230 and each of the caps 500. Each of the position-limiting members 1000 includes a first position-limiting section 1002 and a second position-limiting section 1004, the first position-limiting section 1002 is connected to the second position-limiting section 1004, and the first position-limiting section 1002 is embedded in the position-limiting groove 230. In addition, each cap body 500 includes a plurality of fixing grooves 520, and the second position-limiting section 1004 is engaged with one of the fixing grooves 520, so that the cap body 500 is fixed and tightly abutted against the wheel body 200 without being loosened.
Each second latch 1100 removably connects each end cap 700 to the axle 400. Each end cap 700 and axle 400 includes an aperture, and each second pin 1100 may be disposed through the apertures of each end cap 700 and axle 400 such that the axle 400 is secured to each end cap 700.
It should be noted that even if the oil level of the oil body 800 is lower than the oil blocking portion 610, the bearing 300 can be immersed in the oil body 800 to be lubricated, and when the oil level of the oil body 800 is lower than the oil blocking portion 610, the oil body 800 is always maintained at the lower half portion of the accommodating space 110 under the influence of gravity, so that the oil body 800 can be ensured not to overflow in the accommodating space 110 under the condition that the cap body 500 is engaged with the wheel body 200 and the rotary oil seal 600 to be oil-tight. In other embodiments, the track roller assembly may include a roller body, a bearing, a roller shaft, a cap body, a rotary oil seal, an end cap, and an oil body, wherein the roller body is in a circular groove shape, and the number of the components is determined by the application requirements, which is not limited to the above. Therefore, the utility model discloses a track thrust wheel subassembly 100 is through two cap bodies 500 difference lock in two wheel bodies 200 and combine two rotatory oil blanket 600, and it borrows the structure of symmetry to realize whole subassembly, can prevent that oil body 800 from spilling over, and then reduces the probability of oil leak by a wide margin. Furthermore, the oil body 800 is always maintained in the lower half of the accommodating space 110 under the influence of gravity, so that the bearing 300 can operate continuously and the crawler track roller assembly 100 does not fail.
Referring to fig. 2, 4 and 7, fig. 7 is a perspective view of a track roller assembly 100a according to another embodiment of the present invention. The track roller assembly 100a includes a roller body 200a, a bearing 300, a roller shaft 400, a cap 500a, a rotary oil seal 600, an end cap (not shown), an oil body 800, an O-ring 900, a retainer 1000a, and a second pin (not shown).
In the embodiment of fig. 7, the bearing 300, the axle 400, the rotary oil seal 600, the end cap, the oil body 800, the O-ring 900 and the second pin are the same as the structures of the bearing 300, the axle 400, the rotary oil seal 600, the end cap 700, the oil body 800, the O-ring 900 and the second pin 1100 in fig. 2 and 4, and are not described again. Specifically, the track roller assembly 100a of the embodiment of fig. 7 further includes a wheel body 200a, a cap 500a and a position-limiting member 1000a, wherein the wheel body 200a includes a thread 210, a ring groove 220 and a position-limiting groove 230a, and the cap 500a includes a thread 510 and a position-limiting portion 530. The threads 510 are correspondingly threadedly engaged in the threads 210, and the ring groove 220 is configured to receive the O-ring 900. The position-limiting portion 530 has a position-limiting hole, and the position-limiting member 1000a correspondingly penetrates through the position-limiting hole of the position-limiting portion 530 and is screwed into the position-limiting groove 230a, so that the wheel body 200a and the cap body 500a are positioned with each other. Therefore, the utility model discloses a track thrust wheel subassembly 100a connects through the lock of locating part 1000a, spacing groove 230a and spacing portion 530, and the oil blanket driving fit of collocation O-ring 900 and the thread lock meshing between thread 510 and the screw thread 210 simultaneously to ensure that oil body 800 does not leak and track thrust wheel subassembly 100a does not become invalid outward.
Referring to fig. 8, 9, 10, 11 and 12, fig. 8 is a schematic view of a wheel body 200b of a track roller assembly according to another embodiment of the present invention; FIG. 9 is a cross-sectional view of the wheel 200b of FIG. 8; fig. 10 illustrates a schematic view of a cap 500b of a track roller assembly according to yet another embodiment of the present invention; FIG. 11 illustrates a cross-sectional view of the cap 500b of FIG. 10; fig. 12 is a schematic view illustrating a combination of a wheel 200b, a cap 500b and a limiting member 1000b according to still another embodiment of the present invention. As shown in the figure, the limiting member 1000b is disposed between the wheel body 200b and the cap body 500b, the inner wall of the wheel body 200b is provided with a plurality of limiting grooves 240, the outer wall of the cap body 500b is provided with a plurality of slots 540, the slots 540 are arranged at intervals, and the limiting member 1000b is disposed between one of the limiting grooves 240 and one of the slots 540 of the cap body 500 b. The limiting member 1000b of the present embodiment is a spring bolt, the number of the locking slots 540 of the cap 500b is six, and the limiting grooves 240 are adjacent to each other in sequence, but not limited to the above disclosure. Therefore, the utility model discloses a wheel body 200b, the block setting of cap body 500b and locating part 1000b can prevent wheel body 200b and cap body 500 b's relative rotation, and the screw lock meshing of its collocation screw thread 210 and screw tooth 510 can further prevent cap body 500 towards the direction displacement of X axle.
Referring to fig. 3, 13A and 13B together, fig. 13A is a schematic side view of a track roller assembly 100c according to still another embodiment of the present invention, and fig. 13B is a schematic cross-sectional view of the track roller assembly 100c of fig. 13A along a cut-off line a-a. The track roller assembly 100c includes two rollers 200c, two bearings 300, a roller axle 400, two caps 500c, two rotary oil seals 600, two end caps (not shown), an oil body (not shown), two O-rings 900, two retainers 1000, a first pin 1200c, and two second pins (not shown).
In the embodiment of fig. 13B, the bearing 300, the axle 400, the rotary oil seal 600, the end cap, the oil body, the O-ring 900, the limiting member 1000, and the second bolt are the same as the bearing 300, the axle 400, the rotary oil seal 600, the end cap 700, the oil body 800, the O-ring 900, the limiting member 1000, and the second bolt in the embodiment of fig. 3, and therefore are not repeated. In particular, the track roller assembly 100c of the embodiment of fig. 13A and 13B further includes a first pin 1200c, and the first pin 1200c connects the cap 500c and the wheel body 200 c. In detail, the cap body 500c and the wheel body 200c both include through holes (not shown), and the first pin 1200c may be disposed through the through holes of the cap body 500c and the wheel body 200c and abut against a groove (not shown) of the wheel body 200c, so that the cap body 500c is fixed to the wheel body 200 c. However, the first pin 1200c may be inserted and then welded to the cap body 500c and the wheel body 200c, or the first pin 1200c may include threads, and the cap body 500c and the wheel body 200c have through holes with threads corresponding to the threads, and the first pin 1200c may also be welded to the cap body 500c and the wheel body 200 c.
Referring to fig. 14A and 14B together, fig. 14A is a schematic side view of a track roller assembly 100d according to still another embodiment of the present invention, and fig. 14B is a schematic cross-sectional view of the track roller assembly 100d of fig. 14A along a cut-away line B-B. The arrangement and function of the components of the track roller assembly 100d of the embodiment of fig. 14B are the same as the track roller assembly 100c of the embodiment of fig. 13B, and are not repeated herein. It should be noted that the number of the first pins 1200d of the track roller assembly 100d is two, and each first pin 1200d is inserted into each cap 500d and each roller body 200d in an oblique manner, wherein each first pin 1200d is inclined by 60 ° toward the axial direction of the axle 400.
In detail, the first pin 1200c of the track roller assembly 100c of the embodiment of fig. 13B is inserted into the cap 500c in a straight direction, and the first pin 1200d of the track roller assembly 100d of the embodiment of fig. 14B is inserted into each cap 500d in an oblique direction, but the insertion manner and number of the first pins are not limited by the disclosure. In addition, in other embodiments, the track roller assembly may include a roller body, a bearing, a roller shaft, a cap body, a rotary oil seal, an end cap, an oil body, and a first pin, wherein the roller body is in a circular groove shape, and the number of the components is determined by the application requirements, which is not limited to the above.
According to the above embodiment, the present invention has the following advantages: first, utilize two caps body spiro union respectively in two wheel bodys and combine two rotatory oil seals, it realizes whole subassembly by means of the structure of symmetry, can prevent that the oil body from spilling over, and then reduce the probability of oil leak by a wide margin. Moreover, the oil body can be always maintained at the lower half part of the accommodating space under the influence of gravity, so that the bearing can continuously operate to prevent the track roller assembly from losing efficacy. And secondly, the oil seal sealing of the O-shaped ring and the screw lock meshing between the screw teeth and the screw threads are matched through the locking connection of the limiting part, the limiting groove and the limiting part, so that the oil body is prevented from leaking and the track thrust wheel assembly is prevented from losing efficacy. Thirdly, the wheel body, the cap body and the limiting part are clamped, so that the relative rotation of the wheel body and the cap body can be prevented, and the matched threads are meshed with the screw lock of the screw teeth, so that the cap body can be further prevented from moving towards the X-axis direction.
Although the present invention has been described with reference to the above embodiments, it should be understood that various changes and modifications can be made by those skilled in the art without departing from the spirit and scope of the invention, and therefore, the scope of the invention is to be defined by the appended claims.

Claims (18)

1. A track roller assembly, comprising:
a wheel body having a thread;
the bearing is arranged on the wheel body;
the wheel shaft penetrates through the bearing;
the cap body is provided with a thread corresponding to the thread, and the thread corresponding to the thread is engaged in the thread;
one side of the rotary oil seal is connected with the cap body, and the other side of the rotary oil seal can be rotatably abutted against the wheel shaft;
the end cover is connected with the wheel shaft;
the oil body is limited in an accommodating space formed by the wheel body, the wheel shaft, the cap body and the rotary oil seal; and
the first bolt is connected with the cap body and the wheel body.
2. The track roller assembly of claim 1, further comprising:
and the O-shaped ring is arranged between the cap body and the wheel body and is made of plastic materials.
3. The track roller assembly of claim 2, wherein the inner wall of the roller body defines a circumferential groove, and wherein the O-ring is disposed between the circumferential groove and the cap body.
4. The track roller assembly of claim 1, further comprising:
the limiting part is arranged between the cap body and the wheel body and limits the cap body.
5. The track roller assembly of claim 4, wherein the inner wall of the roller body is circumferentially formed with a retaining groove, and the retaining member is disposed between the retaining groove and the cap.
6. The track roller assembly of claim 5,
the limiting piece comprises a first limiting section and a second limiting section, the first limiting section is connected with the second limiting section, and the first limiting section is embedded in the limiting groove; and
the cap body comprises at least one fixing groove, and the second limiting section is embedded in the at least one fixing groove.
7. The track roller assembly of claim 4,
the outer wall of the cap body is provided with a plurality of clamping grooves which are arranged at intervals; and
the inner wall of the wheel body is provided with a plurality of limiting grooves, and the limiting part is arranged between one of the limiting grooves and one of the clamping grooves of the cap body.
8. The track roller assembly of claim 1, further comprising:
a second latch removably connecting the end cap with the axle.
9. The track roller assembly of claim 1, wherein the rotary oil seal comprises:
at least one oil blocking portion rotatably abutting against the wheel axle and being close to the oil body; and
a dust prevention portion rotatably abutting the wheel shaft and away from the oil body.
10. A track roller assembly, comprising:
two wheels connected to each other, each of the wheels having a thread;
the two bearings are respectively arranged on the two wheel bodies;
the wheel shaft penetrates through the two bearings;
two cap bodies, each cap body is provided with a thread corresponding to the thread, and the thread corresponding to the thread is engaged in the thread in a locking manner;
one side of each rotary oil seal is connected with each cap body, and the other side of each rotary oil seal can be rotatably abutted against the wheel shaft;
the two end covers are respectively connected with the two opposite ends of the wheel shaft;
the oil body is limited in an accommodating space formed by the two wheel bodies, the wheel shaft, the two cap bodies and the two rotary oil seals; and
at least one first pin connecting one of the cap bodies to one of the wheel bodies.
11. The track roller assembly of claim 10, further comprising:
and each O-shaped ring is arranged between each cap body and each wheel body and is made of plastic materials.
12. The track roller assembly of claim 11, wherein an inner wall of each of the rollers defines a circumferential groove, and wherein each of the O-rings is disposed between the circumferential groove and each of the caps.
13. The track roller assembly of claim 10, further comprising:
the two limiting pieces are arranged between the cap bodies and the wheel bodies, and the limiting pieces limit the cap bodies.
14. The track roller assembly of claim 13, wherein the inner wall of each roller body is circumferentially formed with a retaining groove, and each retaining member is disposed between the retaining groove and each cap body.
15. The track roller assembly of claim 14,
each limiting piece comprises a first limiting section and a second limiting section, the first limiting section is connected with the second limiting section, and the first limiting section is embedded in the limiting groove; and
each cap body contains at least one fixed slot, the second spacing section scarf joint the at least one fixed slot.
16. The track roller assembly of claim 13,
the outer wall of each cap body is provided with a plurality of clamping grooves which are arranged at intervals; and
the inner wall of each wheel body is provided with a plurality of limiting grooves, and each limiting part is arranged between one limiting groove and one clamping groove of the cap body.
17. The track roller assembly of claim 10, further comprising:
two second latches, each said second latch removably connecting each said end cap to said axle.
18. The track roller assembly of claim 10, wherein each of the rotary oil seals comprises:
at least one oil blocking portion rotatably abutting against the wheel axle and being close to the oil body; and
a dust prevention portion rotatably abutting the wheel shaft and away from the oil body.
CN202020730036.6U 2020-05-07 2020-05-07 Track roller assembly Active CN212313715U (en)

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Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS58101014U (en) * 1981-12-29 1983-07-09 日野自動車株式会社 Mechanism to prevent loosening of bolts and nuts
JP2000247271A (en) 1999-02-26 2000-09-12 Hitachi Constr Mach Co Ltd Guide roller device for crawler vehicle
JP2011051377A (en) 2009-08-31 2011-03-17 Nsk Ltd Steering device

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