This application claims priority on the basis of Japanese application 2007-008391, filed Jan. 17, 2007. The disclosure of Japanese application 2007-008391 is hereby incorporated by reference.
This invention relates to improvements in chain transmissions for reducing vibration and noise generated when the rollers of a standard roller chain or the bushings of a standard rollerless bushing chain engage with sprocket teeth, and for effecting smooth disengagement of the rollers or bushings from the sprocket teeth.
Chain transmissions, in which a chain is engaged with a driving sprocket and one or more driven sprockets, have been widely used as timing transmissions in automobile engines for driving valve-operating cam or cams from the engine crankshaft.
Recent demand for higher power automobile engines, coupled with public consciousness of environmental problems, has led to the development of engines that produce high levels of noise and vibration, and to efforts toward reduction of that noise and vibration. The principal source of timing transmission noise is the engagement sound generated as the chain engages the sprockets. Attempts have been made to reduce noise and vibration by utilizing vibration-proofing materials to absorb radiated sound. For example, as shown in
When the sprocket 40 engages with a standard roller chain 60, as shown in
Since the chordal tooth form pitch pa of the sprocket 40 is equal to the pitch p of a standard roller chain 60, the respective following rollers 62 abut the teeth of the sprocket 40 at the same abutment position t, as shown in
The standard roller chain shown in
Accordingly, an object of the invention is to provide a chain transmission in which a roller of a standard roller chain, or a bushing of a standard bushing chain, engage with a sprocket tooth, in which the vibration-reducing performance of an elastic member incorporated into the sprocket is improved, and in which the endurance of the elastic member is improved
The chain transmission according to the invention comprises a sprocket having sprocket teeth, and a standard roller or bushing chain engaged with the sprocket teeth. The sprocket has a hub, an annular peripheral part on which the sprocket teeth are formed, and an annular elastic member disposed between, and concentric with, the hub and the annular peripheral part. The sprocket has a plurality of different tooth form pitch angles arranged irregularly along the circumferential direction of the sprocket's pitch circle.
In one preferred form of the chain transmission according to the invention, the form pitch angles are θ−Δθ, θ−Δθ and θ+2Δθ, θ being the tooth form pitch angle of a standard sprocket, and the tooth form pitch angles are arranged irregularly along the circumferential direction of the sprocket's pitch circle.
In another preferred form of the chain transmission according to the invention, the tooth form pitch angles are θ−Δθ, θ, and θ+Δθ, θ being the tooth form pitch angle of a standard sprocket, and the tooth form pitch angles are arranged irregularly along the circumferential direction of the sprocket's pitch circle.
Because the sprocket has a plurality of different tooth form pitch angles, and the tooth form pitch angles are arranged irregularly along the circumferential direction of the sprocket's pitch circle, the engagement impact between a roller or bushing and the tooth gap bottom of the sprocket is reduced, and the elastic member becomes more effective in vibration reduction. Furthermore, since the overall impact force applied to the elastic member is reduced, the endurance of the elastic member is improved.
The timing of engagement of a roller or bushing with the sprocket is also shifted. Consequently, vibrations and noises having an order determined by the number of sprocket teeth, which could not be effectively reduced by the elastic member alone, are reduced. Thus, the overall sounds produced by the chain transmission are significantly reduced by the combined effect of the shift in engagement timing and the vibration-reduction of the elastic member.
a) is a front elevational view of the sprocket shown in
b) is a cross-sectional view taken on section plane IIB-IIB in
a) is a front elevational view of the sprocket shown in
b) is a cross-sectional view taken on section plane IVB-IVB in
In a chain transmission incorporating a standard roller chain or a standard rollerless bushing chain, if a sprocket has an annular elastic member concentrically sandwiched between a hub and an annular peripheral part on which the sprocket teeth are formed, and the sprocket has a plurality of different tooth form pitch angles, arranged irregularly along the circumferential direction of the sprocket's pitch circle, good vibration-reducing performance is exhibited, and vibration and noise having an order determined by the number of sprocket teeth are reduced, so that the overall sounds are significantly reduced. Moreover, the endurance of the elastic member is improved.
As shown in
The sprocket 10 can have two different tooth form pitch angles, θ−Δθ and θ+2Δθ. The tooth form pitch angle θ−Δθ is smaller than a standard pitch angle θ by an angle Δθ, and a tooth form pitch angle θ+2Δθ is larger than the standard pitch angle θ by two times the angle Δθ. In order to allow engagement of the chain rollers with the sprocket teeth, Δθ must not be greater than ¼ the standard pitch angle θ (that is, Δθ≦θ/4). Specifically, if the sprocket 10 has eighteen teeth, that is z=18, the standard pitch angle θ is 20°, from the expression θ=360°/z, and Δθ≦5° based on the formula Δθ≦θ/4.
In the sprocket, these two tooth form pitch angles, θ−Δθ and θ+2Δθ, are arranged irregularly along the circumferential direction of the pitch circle, with two tooth form pitch angles θ−Δθ for each tooth form pitch angle θ+2Δθ. A pair of pitch angles θ−Δθ, together with a single pitch angle θ+2Δθ, can be considered as one set of pitch angles. The sum of the pitch angles, θ−Δθ and θ+2Δθ, in the sprocket is 360°.
The standard roller chain 50 has a uniform chain pitch p, and the sprocket 10 has two different tooth form pitch angles, θ−Δθ and θ+2Δθ. These tooth form pitch angles, θ−Δθ and θ+2Δθ, are arranged irregularly along the circumferential direction of the pitch circle pc, with two pitch angles θ−Δθ and one pitch angle θ+2Δθ constituting a set. As the chain approaches the rotating sprocket 10, a roller 52, following a preceding roller already seated, moves relative to the preceding roller about the center O1 of the preceding roller, in an arc having the chain pitch p as its radius. The roller abuts a tooth gap bottom or a tooth surface at an abutment position t shown by a small circle in
The standard roller chain 50 has a uniform chain pitch p, but the sprocket 10 has two kinds of tooth form pitches pa1 and pa2, which are chordal distances corresponding to the two different tooth form pitch angles. Since the tooth form pitches pa1 and pa2 are arranged irregularly along the circumferential direction of the pitch circle pc with two tooth form pitches pa1 and one tooth form pitch pa2 constituting a set, the abutment position t of each roller 52 onto a tooth of the sprocket 10 at the beginning of engagement changes as shown in
A chain transmission according to a second embodiment of the invention will now be described with reference to
As in the case of the sprocket 10 of
In the sprocket of a chain transmission according to a third embodiment of the invention, as shown in
The elastic member 34 is formed with a plurality of spaced cylindrical portions 34a, disposed at equal intervals around the circumference of the elastic member. The cylindrical members are connected by arc-shaped plates 34b. The elastic member 34 is sandwiched between the outer circumferential surface of the hub 36, and an inner circumferential surface of the toothed outer circumferential member 32. The cylindrical portions 34a are fitted between opposed concave grooves 36b and 32a, respectively disposed on the outer circumferential surface of the hub 36 and the inner circumferential surface of the member 32 at uniform intervals. Center pins 38 are fitted into, and secured to, hollow central openings in the cylindrical portions 34a of the elastic members. The pins 38 are preferably formed of a material having a higher rigidity than that of the elastic member 34.
Since the cylindrical portions 34a of the elastic member are disposed at equal intervals in the circumferential direction, the outer circumferential member 32 and the hub 36 are prevented from sliding circumferentially relative to the elastic member 34, and from rotating relative to each other. Thus, the elastic member is prevented from being sheared by relative rotation of the inner circumferential surface of the outer circumferential member 32 and the outer circumferential surface of the hub 36 of the sprocket 30.
The sprocket 30 has two different tooth form pitch angles, θ−Δθ and θ+2Δθ, as shown in
A chain transmission device according to a fourth embodiment of the invention will be described with reference to
The sprocket 11, which is shown in
In the sprocket shown in
As shown in
Since the standard roller chain 50 of the fourth embodiment has a uniform chain pitch p, and the sprocket 11 has three different tooth form pitches, pa, pa3, and pa1, which together form a set, the abutment position t of each roller 52 varies. Therefore, the timing of the collision of each roller with the sprocket teeth is shifted, and, as a result, vibration and noise having an order determined by the number of teeth are reduced even when they cannot be effectively reduced by the elastic member alone.
A fifth embodiment of the invention will be described with reference to
The elastic member of the sprocket 21 of the fifth embodiment, and its function and its material, are the same as the elastic member 24 of the second embodiment described above.
Here, as in the fourth embodiment, the sprocket has three kinds of different tooth form pitch angles: θ θ+Δθ, and θ−Δθ, as shown in
In a sixth embodiment of the invention, which will be described with reference to
The sprocket has three different tooth form pitch angles: θ, θ+Δθ and θ−Δθ, as shown in
In the first, second, fourth and fifth embodiments, the elastic members 14 and 24 are of a cylindrical shape with a uniform thickness, and the tooth form pitch angles of the sprocket are arranged irregularly along the circumferential direction of the sprocket's pitch circle. The magnitude of the impact generated on engagement varies, and the absorption of impact and the vibration-reducing performance of the sprocket can be increased by increasing the thickness of the elastic member.
In all of the examples described above, the elastic members 12, 24, and 34 are attached to the outer circumferential members 12, 22, 32 and the hubs or inner circumferential members 16, 26, 36, or the elastic members are sandwiched between the outer and inner circumferential members.
As shown in
In the chain transmission of the invention, the vibration-reducing performance of the sandwiched elastic member is increased, the endurance of the elastic member is improved, and vibrations and noises, having an order determined by the number of sprocket teeth, are reduced so that overall sounds are significantly reduced, and the vibration-reducing performance of the sprocket's elastic member is more fully realized.
Number | Date | Country | Kind |
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2007-008391 | Jan 2007 | JP | national |