1. Field of the Invention
The present invention relates to a guide shoe that has a shoe surface for slidably guiding a running chain.
2. Description of the Related Art
A chain guide has hitherto been known, which is incorporated in a timing system in the engine room of a car to slidably guide the chain running between sprockets and keep an appropriate chain tension (see, for example, Japanese Patent Application Laid-open No. 2006-242357).
This conventional chain guide includes a guide shoe that has a shoe surface for slidably guiding the running chain, and a base member that supports this guide shoe along the longitudinal direction of the guide.
Lubricating oil is supplied on the shoe surface during use of the conventional chain guide for the purpose of reducing friction between the surface of the guide shoe and the chain, and wear of the shoe surface. However, sometimes there is a shortage of oil or variation in the oil film thickness on the shoe surface, leading to the problem of accelerated wear of the guide shoe due to increased friction between the shoe surface and the chain.
It is also known to provide dimples, grooves, or the like in the shoe surface for the purpose of forming oil pockets in the surface of the guide shoe. While these dimples and the like can function as oil pockets, the lubricating oil held in the dimples or the like could hardly be pulled out onto the sliding shoe surface depending on the viscosity of the lubricating oil and the running speed of the chain, and could not be supplied to the sliding surface of the shoe in a favorable manner.
The present invention is directed at solving these problems and it is an object of the invention to provide a simple-structured guide shoe that can prevent a shortage of lubricating oil and supply the lubricating oil onto the sliding surface of the shoe in a favorable manner.
To solve the problems described above, the present invention provides a guide shoe that has a shoe surface for slidably guiding a running chain, including an oil guide part with a pair of guide walls on the shoe surface. The pair of guide walls each face a rear side in a chain running direction and converge to each other toward a front side in the chain running direction.
According to an aspect of the invention as set forth in claim 1, an oil guide part having a pair of guide walls that converge to each other toward the front side in the chain running direction is formed on the shoe surface, so that the lubricating oil held in oil pockets is guided by the pair of guide walls to approach each other as the chain runs, and the oil film thickness increases due to an oil pressure buildup at the wall-pair converging portion of the pair of guide walls. Friction between the shoe surface and the chain is thereby reduced, and thus the guide shoe can smoothly guide the chain and exhibit excellent wear resistance.
According to an aspect of the invention as set forth in claim 2, the distance between a plurality of wall-pair converging portions in a shoe width direction as viewed in a chain running direction is set to or smaller than the plate thickness of link plates of the chain. This ensures that each of the plurality of link plates that form the chain runs on the wall-pair converging portions of the walls where the oil film thickness is increased, so that the friction reducing effect can be successfully exploited.
According to an aspect of the invention as set forth in claim 3, each guide wall is formed as a flat surface, so that the pair of guide walls converge to each other linearly. As the lubricating oil is guided linearly toward the wall-pair converging portion of the walls, the pressure of the lubricating oil can be increased even more at the wall-pair converging portion.
According to an aspect of the invention as set forth in claim 4, the pair of guide walls are connected to each other at the wall-pair converging portion, so that the lubricating oil cannot flow anywhere out of the wall-pair converging portion, which improves the oil film forming effect at the wall-pair converging portion.
According to an aspect of the invention as set forth in claim 5, a plurality of oil guide parts are arranged in a zigzag pattern on the shoe surface, so that the oil guide parts can be provided in the shoe surface in a high density, and in particular, the distance between the plurality of wall-pair converging portions in the shoe width direction as viewed in the chain running direction can be reduced. This ensures that each of the plurality of link plates that form the chain runs on the parts where the oil film thickness is increased.
According to an aspect of the invention as set forth in claim 6, the plurality of oil guide parts are arranged side by side both in the chain running direction and in the shoe width direction, which makes the production of metal molds for the shoe surface pattern easy, i.e., reduces the burden of production of the guide shoe.
According to an aspect of the invention as set forth in claim 7, the oil guide part includes a pair of second guide walls arranged to oppose the pair of guide walls on the rear side in the chain running direction of the pair of guide walls. The pair of second guide walls each face the front side in the chain running direction and converge to each other toward the front side in the chain running direction. The pair of second guide walls formed on the rear side of the pair of guide walls can also guide the lubricating oil toward the wall-pair converging portion, so that the oil film forming effect at the wall-pair converging portion of the walls can be improved.
Hereinafter, a chain guide 100 according to the first embodiment of the present invention will be described with reference to
The chain guide 100 of the first embodiment is incorporated in a timing system in an engine room, and slidably guides a chain CH running between sprockets S1 to S3 as shown in
The chain guide 100 includes, as shown in
The guide shoe 120 is made of a synthetic resin material and has a shoe surface 121 extending along the chain running direction D on the side that faces the engine room, and guide sections 125 on both sides in a width direction of the guide shoe 120. A plurality of diagonal L-shaped indentations 122 are formed in a zigzag pattern in the shoe surface 121 as shown in
Each oil guide part 124 has a pair of guide walls 124a that are inner wall faces on the front side of the indentation 122, a wall-pair converging portion 124b where the pair of guide walls 124a converge to each other, and a pair of second guide walls 124c that are inner wall faces on the rear side of the indentation 122, as shown in
Each guide wall 124a is formed as a flat surface and faces the rear side in the chain running direction D as shown in
Each second guide wall 124c is formed as a flat surface, faces the front side in the chain running direction D, and opposes each guide wall 124a, as shown in
As viewed in the chain running direction D, the distance W1 in the width direction of the shoe between the plurality of wall-pair converging portions 124b is set to or smaller than the plate thickness W2 of link plates L of the chain CH, as shown in
Next, a modification of the first embodiment will be described with reference to
The difference between the first embodiment shown in
In the modification shown in
Next, a chain guide 200 according to the second embodiment will be described with reference to
In the chain guide 200 of the second embodiment, as shown in
The oil guide part 224 includes a pair of guide walls 224a, a wall-pair converging portion 224b, and a pair of second guide walls 224c, as shown in
Next, a modification of the second embodiment will be described with reference to
The difference between the second embodiment shown in
In the modification shown in
Next, a chain guide 300 according to the third embodiment will be described with reference to
In the chain guide 300 of the third embodiment, as shown in
Each oil guide part 324 in the chain guide 300 has a pair of guide walls 324a that are inner wall faces on the front side of the indentation 322, a wall-pair converging portion 324b where the pair of guide walls 324a converge to each other, and a pair of second guide walls 324c that are inner wall faces on the rear side of the indentation 322, as shown in
Next, a chain guide 400 according to the fourth embodiment will be described with reference to
In the chain guide 400 of the fourth embodiment, as shown in
Each oil guide part 424 has a pair of guide walls 424a that are inner wall faces on the front side of the indentation 422, and a wall-pair converging portion 424b where the pair of guide walls 424a converge to each other, as shown in
Next, a modification of the fourth embodiment will be described with reference to
The difference between the fourth embodiment shown in
In the modification shown in
Next, a chain guide 500 according to a first reference example will be described with reference to
The chain guide 500 of the first reference example has a plurality of stripe indentations 522 extending side by side diagonally both to the chain running direction D and shoe width direction in the shoe surface 521.
Next, a chain guide 600 according to a second reference example will be described with reference to
In the chain guide 600 of the second reference example, a plurality of square indentations 622 are arranged side by side in the chain running direction D and shoe width direction in the shoe surface 621, with their sides oriented along the chain running direction D (and the shoe width direction).
Next, a chain guide 700 according to a third reference example will be described with reference to
In the chain guide 700 of the third reference example, a plurality of square protrusions 723 are arranged side by side in the chain running direction D and shoe width direction on the shoe surface 721, with their sides oriented along the chain running direction D (and the shoe width direction).
Next, a chain guide 800 according to a fourth reference example will be described with reference to
The chain guide 800 of the fourth reference example has a plurality of stripe indentations 822 extending along the chain running direction D and arranged side by side in the shoe width direction in the shoe surface 821.
While the guide wall (and second guide wall) in the embodiments and modifications described above are formed as flat surfaces, specific forms of the guide wall (and second guide wall) are not limited to this. For example, the guide wall (and second guide wall) may be formed as a convex or concave curved surface.
The indentations or protrusions in the shoe may have any shapes and arrangements as long as pairs of guide walls are formed such as to converge to each other toward the front side of the chain running direction.
While the oil guide parts are formed over the entire area of the shoe surface in the width direction in the embodiments described above, the oil guide parts may be formed only in limited areas in the width direction of the shoe, e.g., areas that make sliding contact with link plates of the chain.
The material of the guide shoe may be selected from known suitable materials in accordance with various conditions such as friction resistance, rigidity, durability, formability, cost, and so on. Synthetic resin materials are particularly suitable.
The material of the base member may be selected from known suitable metal materials in accordance with various conditions such as rigidity, durability, formability, cost, and so on.
The guide shoe and the base member may be formed integral with each other.
Various configurations of the embodiments and modifications shown above may be freely combined to form other chain guides.
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2014-008938 | Jan 2014 | JP | national |
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Number | Date | Country | |
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