JP2006125476A - Chain tensioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a chain tensioner for maintaining the tension of a chain independently of whenever a driving side sprocket is rotated or stopped, without being subjected to constraints of mounting sites. <P>SOLUTION: The chain tensioner 1 for maintaining the tension of the chain 2 applied between the driving side sprocket 9 and a driven side sprocket 10 comprises a first tension sprocket 7a for meshing with one of the opposite sides of the chain 1 between the driving side sprocket 9 and the driven side sprocket 10 and a second tension sprocket 7b for meshing with the other side, and an energizing means for energizing at least one of the first tension sprocket 7a and the second tension sprocket 7b in the direction of maintaining the tension of the chain 1. It is held only by the chain 1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

 The present invention relates to a chain tensioner that maintains the tension of a chain spanned between a driving sprocket and a driven sprocket.

  The chain tensioner applies pressure by a tension member from one or both of a driving side sprocket that drives a chain that transmits rotational power and a driven side sprocket that is driven by the chain, and the chain tensioner is excessive. The slack is not generated. However, when further slackening occurs due to the elongation of the chain that occurs with use, it is necessary to redo the adjustment of the arrangement positions of the tension members.

  Therefore, a chain tensioner described in Patent Document 1 is known as a solution to this problem. FIG. 1 of Patent Document 1 shows the usage state of the chain tensioner A. A support arm 4 that can swing about an endless chain 1 spanned between the drive-side sprocket 2 and the driven-side sprocket 3 about a swing fulcrum 10 fixed outside, and an attachment provided on the support arm 4 Two tension members 5 and 6 that are rotatably attached to the hole 7 and mesh with the outer peripheral surface portion of the endless chain 1 are provided. The endless chain 1 forms an outward path portion 1a from the driven side sprocket 3 to the driving side sprocket 2 and a return path portion 1b from the driving side sprocket 2 to the driven side sprocket 3.

In the above chain tensioner A, when the drive side sprocket 2 rotates and a load is applied to the forward path portion 1a, the tension member 5 of the forward path portion 1a receives a pressure from the inner peripheral surface side of the endless chain 1 toward the outer peripheral surface side. Move to the upper right in the figure. As the tension member 5 moves, the support arm 4 swings to the right in the figure around the swing fulcrum 10, so that the tension member 6 of the return path portion 1b moves from the outer peripheral surface side toward the inner peripheral surface side. Apply pressure. The support arm 4 stops without excessive slack, but if the endless chain 1 stretches and further loosens, the endless chain 1 swings again to a position where the slack is eliminated. The followability to the elongation of the chain 1 is born, and the excessive slack can be automatically adjusted.
Japanese Patent Laid-Open No. 11-59553

  However, according to the chain tensioner A of Patent Document 1, the rotation of the drive side sprocket 2 causes the support arm 4 to swing rightward in the figure around the swing fulcrum 10, and the forward path portion 1 a of the endless chain 1. Since the return path portion 1b is pressed, the support arm 4 does not swing when the drive side sprocket 2 is stopped, and the endless chain 1 is slackened. Further, it is necessary to attach the swing fulcrum 10 of the support arm 4 to the outside, and there arises a problem that the mounting location is restricted.

  Therefore, the present invention has been made in view of the above circumstances, and provides a chain tensioner that can maintain the chain tension regardless of whether the drive side sprocket is rotating or stopped without being restricted by the mounting location. The purpose is to do.

In order to achieve the above object, the present invention provides a chain tensioner for maintaining the tension of a chain that is stretched between a drive-side sprocket and a driven-side sprocket,
A first tension sprocket meshing with one of the chains opposed between the driving side sprocket and the driven side sprocket, and a second tension sprocket meshing with the other;
Urging means for urging at least one of the first tension sprocket and the second tension sprocket in a direction to maintain the tension of the chain;
It is characterized by being held only by the chain.

Therefore, in the chain tensioner of the present invention, the first tension sprocket meshing with one of the chains facing the drive side sprocket and the driven sprocket, the second tension sprocket meshing with the other, the first tension sprocket, Since there is a biasing means that biases at least one of the two tension sprockets in the direction that maintains the chain tension, it always presses against the forward and backward path portions of the chain regardless of whether the drive sprocket is rotating or stopped. Is added. Moreover, since the chain tensioner is configured to be held only by the chain, the chain tensioner operates in a floating state.
As a result, the chain tension can always be maintained regardless of whether the drive side sprocket is rotating or stopped. Moreover, it is not necessary to attach the chain tensioner to the outside, and there is no restriction on the installation location.

  Hereinafter, the best mode for carrying out the chain tensioner of the present invention will be described based on Example 1 and Example 2 shown in the drawings.

First, the configuration will be described.
FIG. 1 is a schematic diagram showing a chain tensioner 1 according to a first embodiment attached to a chain 2.
As shown in FIG. 1, the chain tensioner 1 according to the first embodiment includes a chain 2, a guide bar 3 (post), a second fixing member 4 (second member), and a first fixing member 5 (first member). , Slide member 6 (moving member), first tension sprocket 7a, second tension sprocket 7b, tension spring 8 (elastic member), driving side sprocket 9, driven side sprocket 10, and hexagon socket head cap screw 13,13.

  The first fixing member 5 fixed to one end of the guide bar 3 is screwed with a hexagon socket head bolt 13 that rotatably holds a first tension sprocket 7a that meshes with the outer peripheral surface side of the return path portion 2b of the chain 2. Has been.

  A second tension sprocket 7b that meshes with the outer peripheral surface side of the forward path portion 2a of the chain 2 is rotatable on the slide member 6 that is slidably attached to the central portion of the guide bar 3 in the axial direction of the guide bar 3. A hexagon socket head cap screw 13 to be held is screwed.

  A second fixing member 4 is fixed to the other end of the guide bar 3, and a tension spring 8 is interposed between the slide member 6 and the second fixing member 4 concentrically with the guide bar 3. Has been. That is, both ends of the tension spring 8 abut on the second fixing member 4 and the slide member 6 and press the slide member 6 toward the first fixing member 5 side.

  The chain tensioner 1 is attached to the chain 2 by moving the slide member 6 toward the second fixing member 4 against the elastic force of the tension spring 8 to increase the distance between the first and second tension sprockets 7a and 7b. . Then, the outer peripheral surface side of the chain 2 is engaged between the first and second tension sprockets 7a and 7b, and the elastic force of the tension spring 8 is released. As a result, the chain tensioner 1 is held only by the chain 2.

Next, the operation will be described.
The operation of the chain tensioner 1 having the above configuration will be described with reference to FIG.
When the drive side sprocket 9 is stopped, the forward path 2a from the driven side sprocket 10 to the driving side sprocket 9 in the chain 2 spanned between the driving side sprocket 9 and the driven side sprocket 10, and the driving side sprocket 9 to the driven side sprocket 9 Looseness occurs in the return path 2b that reaches 10.
The second and first tension sprockets 7b and 7a of the chain tensioner 1 are engaged with the forward path portion 2a and the backward path portion 2b where the slack occurs, respectively, and a tension spring 8 interposed between the second fixing member 4 and the slide member 6 Since the first and second tension sprockets 7a and 7b apply pressure from the outer peripheral surface side to the inner peripheral surface side of the return path portion 2b and the forward path portion 2a by the elastic force of the chain 2, when the drive side sprocket 9 is stopped, the chain 2 The tension of can be kept.

  On the other hand, when the drive-side sprocket 9 rotates in the direction of the arrow, the forward path portion 2a of the chain 2 is tensioned and the return path portion 2b is slack. However, the elastic force of the tension spring 8 interposed between the second fixed member 4 and the slide member 6 by engaging the second and first tension sprockets 7b and 7a with the forward path portion 2a and the return path portion 2b of the chain 2, respectively. As a result, the first and second tension sprockets 7a and 7b apply pressure from the outer peripheral surface side to the inner peripheral surface side of the return path portion 2b and the forward path portion 2a. Can keep.

Next, the effect will be described.
As described above, the chain tensioner 1 according to the first embodiment can maintain the tension of the chain 2 regardless of whether the drive-side sprocket 9 is rotating or stopped.

  Further, even when the drive side sprocket 9 rotates continuously or at a high speed for a long time in the direction of the arrow shown in FIG. 1, the second and first tension sprockets mesh with the forward path portion 2a and the backward path portion 2b of the chain 2. 7b and 7a are rotatable, and the chain tensioner 1 is stretched between the drive side sprocket 9 and the driven side sprocket 10 because the chain 2 is always pressed from the outer peripheral surface side to the inner peripheral surface side. The chain 2 is securely held and the tension of the chain 2 can be maintained.

  In addition, the first fixing member 5 and the slide member 6 that support the first and second tension sprockets 7a and 7b are stationary without excessive slack of the chain 2, but extend to the chain 2 with use. When slack is generated and the slack further occurs, the chain 2 moves again to the position where the slack of the chain 2 disappears, so that followability to the elongation of the chain 2 is created, and the slack can be automatically adjusted.

  Since the chain tensioner 1 according to the first embodiment is configured to be held by itself only by the chain 2 as described above, it is not necessary to mount the chain tensioner outside as in the prior art, and there is no restriction on the installation location. .

  The second embodiment is an example in which holding means for holding the distance between the slide member 6 and the second fixing member 4 is added to the first embodiment shown in FIG.

  First, the configuration will be described. As shown in FIG. 2, the holding means passes through the through hole 16 provided in the second fixing member 4, and one end is screwed into the mounting hole 15 provided in the slide member 6. A bolt 14 (bolt member), a fixing nut 19 that contacts the slide member 6 and fixes the bolt 14, and a wing nut 17 (nut member) that is screwed into the bolt 14 and contacts the side surface of the second fixing member 4 Is composed of. In the chain tensioner 1 ′ shown in FIG. 2, the same components as those of the chain tensioner 1 shown in FIG.

The operation of the holding means having the above configuration will be described with reference to FIG.
The wing nut 17 screwed into the bolt 14 is twisted to a position where it comes into contact with the second fixing member 4. When the wing nut 17 is further screwed in, the bolt 14 is pulled in the direction of arrow A. Accordingly, the slide member 6 moves in the direction of arrow A against the elastic force of the tension spring 8, so that the distance between the first and second tension sprockets 7a and 7b can be increased.

  When the wing nut 17 is twisted in the opposite direction, the sliding member 6 is pushed in the direction of arrow B by the elastic force of the tension spring 8, so that the distance between the first and second tension sprockets 7a and 7b can be reduced. it can.

  In use, the wing nut 17 screwed into the bolt 14 is screwed in until the tension spring 8 is fully retracted, and the distance between the first and second tension sprockets 7a, 7b is fully expanded. In this state, the second and first tension sprockets 7b and 7a are attached to the outer peripheral surface portions of the forward path portion 2a and the return path portion 2b of the chain 2. When the wing nut 17 is fully loosened to the vicinity of the caulking portion 18, the attachment is completed. Here, the distance between the side surface of the second fixing member 4 on the wing nut 17 side and the wing nut 17 is such that the slide member 6 does not come into contact with each other due to the movement of the slide member 6 when the drive side sprocket 9 is driven. Therefore, the configuration of the holding means does not affect the operating state when the drive side sprocket 9 is driven.

  Next, the effect will be described. In the chain tensioner 1 ′ of the second embodiment, one end of the chain tensioner 1 ′ is threaded through the through hole 16 provided in the second fixing member 4, and is fitted into the mounting hole 15 provided in the slide member 6. Provided with holding means comprising: a bolt 14 to be fixed; a fixing nut 19 that contacts the slide member 6 to fix the bolt 14; and a wing nut 17 that is screwed to the bolt 14 and contacts the side surface of the second fixing member 4. Thus, the slide member 6 can be easily moved in the arrow A direction and the B direction according to the twist direction and the twist amount of the wing nut 17. Accordingly, the distance between the first and second tension sprockets 7a and 7b in the chain tensioner 1 ′ can be controlled, and the attachment to the chain 2 can be easily performed.

  As mentioned above, although the chain tensioner of this invention has been demonstrated based on Example 1 and Example 2, it is not restricted to these Examples about a concrete structure, It concerns on each claim of a claim Design changes and additions are allowed without departing from the scope of the invention.

  In the chain tensioner 1 of the first and second embodiments, the second tension sprocket 7b is engaged with the forward path portion 2a of the chain 2 and the first tension sprocket 7a is engaged with the backward path portion 2b. There is no problem even if the first tension sprocket 7a is engaged with the portion 2a and the second tension sprocket 7b is engaged with the return passage portion 2b.

  In the chain tensioner 1 of the first and second embodiments, the example in which the rotation surfaces of the first and second tension sprockets 7a and 7b are used in the direction parallel to the horizontal plane is shown. However, the first and second tension sprockets 7a and 7b are used. There is no problem even if it is used in an orientation in which the rotation surface of the is not parallel to the horizontal plane.

  The chain tensioners of the first and second embodiments can be effectively applied to vehicle-mounted devices and various industrial devices. As an example, the drive sprocket is set to the motor shaft of the electric motor, the oil pump of the belt type continuously variable transmission for the vehicle is set to the driven sprocket, and the chain for maintaining the tension of the chain spanned between both sprockets Can be applied as a tensioner. As an example, the chain tensioners of the first and second embodiments set the driving side sprocket to the motor shaft of the electric motor, intermittently operate the deburring machine set to the driven side sprocket, and the chain tensioner spanned between the two sprockets. It can be applied as a chain tensioner for maintaining tension.

1 is a schematic diagram showing a chain tensioner 1 of Example 1 attached to a chain 2. FIG. It is a front view which shows chain tensioner 1 'of Example 2. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Chain tensioner 2 Chain 2a Outbound part 2b Return part 3 Guide bar 4 Second fixing member 5 First fixing member 6 Slide member 7a First tension sprocket 7b Second tension sprocket 8 Tension spring 9 Drive side sprocket 10 Drive side sprocket 11 Insertion Hole 12 Mounting hole 13 Hexagon socket head cap screw 14 Bolt 15 Mounting hole 16 Through hole 17 Wing nut 18 Caulking portion 19 Fixing nut

Claims (6)

A chain tensioner that maintains the tension of the chain spanned between the drive-side sprocket and the driven-side sprocket,
A first tension sprocket meshing with one of the chains opposed between the driving side sprocket and the driven side sprocket, and a second tension sprocket meshing with the other;
Urging means for urging at least one of the first tension sprocket and the second tension sprocket in a direction to maintain the tension of the chain;
A chain tensioner which is held only by the chain. The chain tensioner according to claim 1,
The biasing means is a first member that rotatably supports the first tension sprocket that meshes with one outer peripheral surface of the chain, a support that fixes the first member to one end, and a slide that can slide on the support. And a moving member that rotatably supports the second tension sprocket that meshes with the other outer peripheral surface of the chain, and an elastic member that presses the moving member toward the first member. Chain tensioner featuring The chain tensioner according to claim 2,
The urging means fixes a second member to the other end of the column, and the elastic member is disposed between the moving member and the second member. The chain tensioner according to claim 3,
The biasing means includes a holding means that is provided between the moving member and the second member and holds a distance between the moving member and the second member against an elastic force of the elastic member. A featured chain tensioner. The chain tensioner according to claim 4,
The holding means has one end fixed to the moving member, a bolt member that penetrates the second member, and a nut that is screwed into the bolt member and abuts against a surface of the second member on the other end side of the bolt member A chain tensioner comprising: a member; A chain tensioner that maintains the tension of the chain spanned between the drive-side sprocket and the driven-side sprocket,
The chain tensioner is characterized in that the chain tensioner is held only by the chain.

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