1. Field of the Invention
The present invention relates to a mounting structure for a tensioner for preventing slack in a drive chain, and to a device to set an initial position of a plunger thereof.
2. Related Art
In a chain composed of a plurality of connected links wound around sprockets to transmit power, the connecting portions of the links experience frictional wear, causing the chain to slacken. In the case of a roller chain exposed so as to drive the rear wheel of a two-wheeled motor vehicle, this slack can be absorbed by adjusting the position of the sprockets. However, in the case of a timing chain or the like for driving a cam that is used inside an engine, a tensioner device is provided to prevent flapping of the chain attendant upon slackening as well as the hypertension that accompanies flapping.
However, although the tensioner 100 is fixedly mounted on the engine by screws inserted in two mounting holes 107, 107, at this time the tensioner 100 is installed on the engine in a state in which the above-described plunger 102 is retracted. As a result, as shown in
When this type of tensioner 100 is installed on an engine, the plunger 102 is pushed into the housing 101, the pin penetration hole 105 is lined up with the pin locking groove 106 and the stopper pin 103 is inserted into the pin penetration hole 105 to fix the plunger 102 in place in the housing 101. In other words, the initial position of the plunger is set.
JP-A-2001-153194 discloses an automatic tensioner entitled “Tensioner with Plunger Locking Mechanism” that, in order to insert the stopper pin for locking the plunger in place inside the housing in a retracted state, provides an annular pin locking groove circumferentially around the periphery of the plunger that contacts a lateral side surface of the stopper pin and engages the pin as well as a pin penetration hole made in the housing. The plunger is locked in place by a stopper pin inserted into the pin penetration hole contacting the bottom of the annular pin-locking groove.
In addition, JP-A-H08-004861 discloses an “Automatic Tensioner” that, in order to insert the stopper pin for locking the plunger in place inside the housing in a retracted state, provides a penetration hole in the plunger and forms pin holes in two opposed lateral sides of a cylinder, such that, by aligning one pin hole on one lateral side of the cylinder, the penetration hole in the plunger and the other pin hole in the other lateral side and inserting the stopper pin through the holes, the stopper pin comes loose with difficulty, and further, modifies the shape of the pin hole on the side from which the stopper pin is inserted so as somewhat to facilitate the insertion of the stopper pin.
However, in the case of an engine in which the distance between the two camshafts is small and there is not enough space to install a tensioner, it is difficult to use the conventional tensioner described above. Specifically, the restricted space makes it difficult to convert an arrangement that uses a gear as the means of linking the two camshafts of an engine that is already in production to a chain-drive type of structure.
With an engine of this type, in which the tensioner must fit into a confined space, there is virtually no extra space with which to work, and since a push-down tensioner is involved the walls of the engine block extend well along both front and rear sides of the tensioner, so that even if the engine head cover is removed to install the tensioner only the chain and the top of the tensioner can be seen. Therefore, a pin inserted so as to set the initial position of the plunger of the tensioner cannot be removed once the tensioner is installed.
Accordingly, it is an object of the present invention to solve problems like those described above, in an engine in which the distance between the camshafts is short and there is not enough space to mount a tensioner as described above, and to provide a tensioner initial position setting device and tensioner mounting structure that can easily release the setting of the initial position of a tensioner that is mounted in a confined space in a state in which the plunger is set at an initial position in which the plunger does not project from the tensioner.
To achieve the above-described object of the present invention, the present invention provides a tensioner initial position seting device for a tensioner comprising a housing, a plunger slidably mounted within said housing, and shoes mounted opposite the bottom of said plunger and the top of said housing, wherein it further comprises concave grooves or penetration holes formed on both lateral sides of each shoe; and a set wire inserted into said concave grooves or holes with both ends of said set wire tied together, thereby preventing the plunger from projecting.
Preferably, concave grooves or holes that communicate with said concave grooves or holes in said shoes are formed in said housing and the set wire is also inserted in the concave grooves or holes in the housing.
In addition, the above-described object of the present invention is also achieved by a tensioner mounting structure for a tensioner comprising a housing, a plunger slidably mounted within said housing, shoes mounted opposite the bottom of said plunger and the top of the housing, and a return spring contained in the housing that biases said plunger in a projecting direction, the tensioner applying tension to a chain wound around both sprockets of an engine, wherein it further comprises concave grooves or penetration holes formed on both lateral sides of each shoe; and a set wire inserted into said concave grooves or holes with both ends of the set wire tied together so as to prevent the plunger from projecting, the tensioner being mounted on an engine body in a space thereof with a bolt inserted into a hole in a mounting flange that extends from a lateral side part of the housing.
The tensioner of the present invention mounts shoes at the tip of the housing and the tip of the plunger, and the plunger is restrained by a wire so that the plunger is not projected by the action of a spring force of a built-in coil spring. Specifically, in a state in which the plunger is restrained by a wire the tensioner is installed on the body of the engine, and, after the tensioner is installed at a predetermined position, the wire is cut and can be removed. Therefore, even with an engine in which the space in which to install the tensioner is limited, the wire can be removed using the slight space above the tensioner. As a result, the plunger protrudes, applying a predetermined tension to the chain.
Other features and advantages of the present invention will be apparent from the following description when taken in conjunction with the accompanying drawings, in which like reference characters designate the same or similar parts throughout the figures thereof.
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
A detailed description will now be given of a preferred embodiment of the present invention, with reference to the accompanying drawings.
As shown in
The housing 2 has a mounting flange 5 extended from a lateral portion of the housing 2 and integrated into the housing 2 as a single unit, and a bolt hole 5a is formed in the mounting flange 5. Although the tensioner 1 is fixedly mounted on an engine body via the mounting flange 5, the mounting flange 5 also engages a notched part formed in the engine body and a bolt is inserted into and through this bolt hole 5a, which penetrates the mounting flange 5 vertically, and the bolt engaged so as to fixedly attach the tensioner 1 to the engine body. Then, a knock-pin hole 5b is provided on a corner of the mounting flange 5 so as to penetrate the mounting flange 5. A knock-pin is inserted into the knock-pin hole 5b to position the tensioner.
Referring to the operation of the tensioner 1, a hydraulic fluid that flows in through a fluid path inside the bolt makes its way through an oil intake port 6 and into a fluid chamber 3a in the plunger 3. Specifically, although the tensioner 1 is fixedly mounted on the engine by the insertion of a bolt into the bolt hole 5a provided in the mounting flange 5, a hole that forms a flow path is formed in the longitudinal axis of the bolt and a groove is formed in the outer periphery of the bolt, and the hole and the groove communicate with each other.
Here, since the groove is provided at the same height as the oil intake port 6 when the bolt is tightened, the hydraulic fluid that flows in from the tip of the bolt to the flow path is directed to the oil intake port 6. However, since the side opposite the oil intake port 6 is dosed off by a ball plug 6a, the hydraulic fluid does not leak from the mounting flange 5. Of course, as can be understood by those skilled in the art, the tensioner 1 of the present invention does not limit the fluid supply means to that shown in the embodiment shown in
A return spring 7 is contained within the fluid chamber 3a of the plunger 3 that provides a spring force that biases the plunger 3 downward. Shoes are mounted on the top end of the housing 2 and the bottom end of the plunger 3, respectvely. As shown in isolation in
As shown in
Incidentally, holes 2a, 2b that penetrate the housing 2 vertically are formed along both lateral sides of the housing 2 and concave grooves 15a, 15b are formed at positions corresponding to the shoe guide ridge 11b. A set wire 20 is mounted inside the holes 2a, 2b and the concave grooves 15a, 15b. Specifically, as shown in
The tensioner 1 having the structure described above is of a structure that permits mounting in a confined space in a state in which the plunger 2 is restricted by the set wire 20, in which, after mounting, the set wire can be cut and pulled out.
However, the sleeve 21 that ties together the two ends of the set wire 20 mounted on the tensioner 1 is stuck out therefrom and accessible. If a portion of the set wire 20 is cut and the sleeve 21 simultaneously pulled, the set wire is removed. As a result, the plunger 3 is biased by the return spring 7 and protrudes, and a predetermined tension can be imparted to the chain 23. In this case, shoes 4 are mounted on both top and bottom ends of the tensioner 1, and by the projection of the plunger 3 a predetermined tension is imparted to the chain 23 that is wound around the sprockets. Specifically, when the chain 23 slackens, the biasing force of the return spring 7 causes the plunger 3 to project so that an appropriate tension is constantly exerted on the chain 23.
When for some reason a large load is exerted on the chain 23, the plunger 3 attempts to retreat However, because the hydraulic fluid that fills the fluid chamber is prevented from draining by the action of a ball 8a atop a ball seat 8 that functions as a check valve, the plunger is prevented from retreating.
As many apparently widely different embodiments and variations of the present invention can be made without departing from the spirit and scope thereof, it is to be understood that the present invention is not limited to the specific embodiments thereof described herein but rather only to the extent set forth in the following claims.
Number | Date | Country | Kind |
---|---|---|---|
2005-287758 | Sep 2005 | JP | national |