JPH02253035A - Automatic tensioner - Google Patents

Abstract

PURPOSE:To enable the compaction of the whole shape without lowering efficiency by making the sectional form of the element wire of a torsion spring placed between a tension shaft and a tension arm square. CONSTITUTION:A torsion spring 6 is compressedly inserted in a space formed between the locked part 8 of a tension arm 3 and the spring bearing part 12 of a fitting member 4. The spring 6 is square in the sectional form of its element wire, and rectangular to be more concrete. This spring 6 with the rectangular cross section is inserted concentrically with the boss part of the tension arm 3 and both end parts are brought into contact with the protrusions 10, 16 of the tension arm 3 and the fitting member 4. In addition, an automatic tensioner 1 is fixed at the other member 10 by a bolt 17 inserted in the slotted hole of the fitting member 4 and put to use by bringing an idler pulley 2 into contact with the rear face of a belt. That is to say, the spring 6 is wound in the fastening direction at the time of normal running and in the loosening direction at the tension operating time of the belt.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an autotensioner that applies appropriate tension to a belt in a belt drive mechanism.

(Prior Art) Conventionally, in a belt transmission device in which a transmission belt is wound between a driving pulley and a driven pulley, an autotensioner has been used as a tension applying means. A specific example of an auto tensioner is a tension arm in which a tensioner shaft is inserted into a cylindrical case, has an idler pulley at its tip, has a ball bearing or bush inserted therein, and also serves as a spring stopper. A torsion spring is inserted into the outer peripheral surface of the tensioner shaft between the cylindrical case and the tension arm, and the tension arm rotates around the shaft due to the torsional force of the spring, thereby applying belt tension.

Conventionally, the torsion spring used is one in which the cross-sectional shape of the wire is circular.

(Problem to be solved by the invention) Incidentally, in recent years, in the field of passenger cars, there has been an increasing need to expand passenger space, and as a result, engine compartments have become smaller. There is a strong demand for smaller size while maintaining performance. Therefore, in order to miniaturize the auto tensioner, improvements have been made such as reducing the internal space and replacing the material, but there is a limit to miniaturization with the configuration of the conventional technology, so a new configuration It was hoped that an auto tensioner would appear.

SUMMARY OF THE INVENTION In view of the above-mentioned circumstances, it is an object of the present invention to propose an autotensioner that can be made more compact in overall size without degrading conventional performance.

(Means for Solving the Problems) Therefore, the feature of the present invention for achieving the above-mentioned object is that a tension arm, to which an idler pulley is rotatably fixed at one end, attaches an auto tensioner to another member. In an auto tensioner in which a torsion spring is rotatably fixed to a tensioner shaft provided on a member and is interposed between a mounting member or a tensioner shaft and a tension arm, the torsion spring has a rectangular cross-sectional shape. be.

That is, the present invention employs a torsion spring having a rectangular cross-sectional shape instead of the conventional circular cross-sectional shape.

A torsion spring whose strands have a rectangular cross-section can have a smaller torsion angle for the same load torque under the same spring constant compared to a conventional round spring. That is, since a spring with a square cross section is stronger than a round spring, the winding diameter and number of turns can be reduced under the same conditions, and an autotensioner with a smaller diameter can be manufactured.

(Example) Specific examples of the present invention will be further described below.

FIG. 1 is a front sectional view of an autotensioner in a specific embodiment of the present invention, FIG. 2 is a front sectional view of the autotensioner in FIG. 1, and FIG. 8 is a view of the autotensioner in FIG. FIG. 4 is a detailed sectional view of the locking portion of the torsion spring in FIG. 1, and FIG. 5 is a modified embodiment of the locking portion of the torsion spring. FIG. 6 is a sectional view of an auto tensioner according to a modified embodiment of the present invention.

In FIGS. 1 and 2, (1) shows an autotensioner in a specific embodiment of the present invention.

The auto tensioner (1) consists of an idler pulley (2), a tension arm (3), a mounting member (4), a tensioner shaft (5), a friction member (21), and a torsion spring (6). Among these, the idler pulley (2
), the tension arm (3), the mounting member (4), and the tensioner shaft (5) are no different from those of the prior art.

To briefly explain these, the tension arm (3
) has a cylindrical shape with a bottom, and includes a mounting part (8) with a mounting boss (7) in the center and an arm part (9) extending from the - end of the mounting part (8). Consists of.

A spring locking protrusion (10) is provided at the bottom of the attachment portion (8) of the tension arm (3), and a tap (11) for idler pulley locking is provided at one end of the arm portion (9). . The mounting member (4) and the tensioner shaft (5) are
In this embodiment, they are integrally formed. The mounting member (4) is attached to the mounting portion (8) of the tension arm (3) described above.
The dish-shaped spring holder facing the part (12) is fan-shaped and extends from the half of the part (12), and consists of a mounting flange having an arc-shaped elongated hole (30). The spring receiver part (12) has a protrusion (16) similar to the protrusion (10) of the tension arm (3) described above.
is provided. The idler pulley (2) is a well-known pulley with a flat surface.

The friction member (21) is a disk-shaped thin plate made of synthetic resin having a relatively high coefficient of friction, metal with an uneven surface, ceramic, or the like. Idler pulley (2), tension arm (3), tensioner shaft (5)
), the friction member (21) is such that the boss portion (7) of the tension arm (9) is attached to the tensioner shaft (5) with the bearing metal (13
), and a friction member (21) is inserted integrally with the tensioner shaft (5) on the back side of the tension arm (9) relative to the spring mounting surface. , a stopper to prevent removal (
22) is fixed by a bolt (23), and an idler pulley (2) is fixed to the tap (11) of the tension arm (3) via a ball bearing (14).
5) is fixed and assembled.

The locking part (8) of the tension arm (3) and the spring receiver of the mounting member (4) are located in the space formed between the part (12) and the torsion spring (6), which is the most characteristic part of the present invention. ) is inserted in a compressed state.

The torsion spring (6) employed in this embodiment has a wire having a cross-sectional shape of a square, more specifically a rectangle. (Fig. 3) The torsion spring (6), which has a rectangular cross section, is inserted concentrically with the boss part of the tension arm (3), and its both ends are connected to the tension arm (3) and the mounting member ( 4) protrusion (1,0) (1
6). The auto tensioner (1) of this embodiment is fixed to another member (19) by a bolt (17) inserted into a long hole (13) of a mounting member (4), and the idler pulley (2) is attached to the back of the belt. used in contact with

That is, in the auto tensioner (1) of this embodiment, during normal running, the torsion spring (6) acts on the idler pulley (2) in the tightening direction, and when tension is applied to the belt due to load fluctuations, the idler pulley (2) has a rectangular cross section. The torsion spring is wound in the direction of winding and loosening, working to withstand excessive tension, and when the tension on the belt is loosened, it works in the direction of winding and loosening. When the auto tensioner is operating, if the belt tension changes significantly for some reason and the tension arm vibrates, friction will occur between the top surface of the tension arm (3) and the friction member (21), and the vibration energy of the tension arm will be generated. is consumed and the vibrations converge early.

As described above, in the present embodiment, the locking means for the spring (6) has been disclosed in which its ends are brought into contact with the protrusions (10) (16), but instead of this, the locking means for the spring (6) is provided with a hole (20) at the end of the torsion spring. ) and inserting a bottle into the chain hole (20) is also effective (see Figure 5). Further, instead of the configuration in which the pin is provided in the tension arm and the mounting member as in this embodiment, a configuration in which the pin is provided in the tension arm and the tensioner shaft is also possible.

Furthermore, in Fig. 1, the tension arm (3) was assembled so as to be rotatable via the bearing metal (13), but as in the structure of Fig. 6, a pole bearing or roller is used instead of the bearing metal. Of course, a configuration in which the tension arm (3') is fixed via a rolling bearing (60) such as a bearing is also possible. In the configuration shown in FIG. 6, a tension arm (3°) is supported on a tensioner shaft (5°) by two rolling bearings (60). The auto tensioner (1') shown in Fig. 6 is used especially when it is necessary to apply high tension to the belt or when the idler pulley (2°) is
It is installed at a position that protrudes from the mounting boss (7').
), or when the idler pulley (2')
This is an effective configuration when it is necessary to prevent the device from tilting.

(Effects) The belt tensioner of the present invention succeeds in downsizing the spring itself by replacing the conventional coil spring with a circular strand cross-sectional shape and using a rectangular one, thereby making the auto tensioner more compact. It has the effect of Therefore, the auto tensioner of the present invention can be installed even in a narrow installation location, and is highly versatile.

[Brief explanation of drawings]

FIG. 1 is a front sectional view of an autotensioner in a specific embodiment of the present invention, FIG. 2 is a front sectional view of the autotensioner in FIG. 1, and FIG. 8 is a view of the autotensioner in FIG. FIG. 4 is a detailed sectional view of the locking portion of the torsion spring in FIG. 1, and FIG. 5 is a modified embodiment of the locking portion of the torsion spring. FIG. 6 is a sectional view of an auto tensioner according to a modified embodiment of the present invention. (1) (1°)...Auto tensioner (2) (2
')...Idler pulley (3)...Tension arm (4)...Mounting member (5)...Tensioner shaft (6) (6')...Torsion spring (10) (16
)...Protrusion (21)...Friction member patent applicant Mitsuboshi Belting Co., Ltd.

Claims (3)

[Claims] 1. A tension arm to which an idler pulley is rotatably fixed at one end is rotatably fixed to a tensioner shaft provided on a mounting member for attaching the auto tensioner to another member, and a torsion spring is installed between the mounting member or the tensioner shaft and the tension arm. The auto tensioner is characterized in that the torsion spring has a rectangular cross-sectional shape. 2. The auto tensioner according to claim 1, wherein the cross-sectional shape of the wire of the torsion spring is rectangular. 3. The tension arm is slidable in the axial direction of the tensioner shaft, and the torsion spring is inserted in an axially compressed state between the mounting member or the tensioner shaft and the tension arm, and the back side of the tension arm relative to the torsion spring insertion surface is 3. The auto tensioner according to claim 1, wherein the auto tensioner is pressed against a friction member fixed to the tensioner shaft by the repulsive force of the torsion spring.