JPH0361748A - V-belt type automatic transmission - Google Patents

Abstract

PURPOSE:To effectively suppress the abrasion of a weight roller and perform a stable shift action by adding the specific wt.% of aramide short fibers to the base oil constituting grease. CONSTITUTION:2-8wt.% of aramide short fibers 32 are added to the base oil 100wt.% constituting grease between a weight roller 15 and the back face 12 of a movable plate 4 or a lamp plate 10. The abrasion of the weight roller 15 is effectively suppressed. When the addition of aramide short fibers to grease is less than 2wt.%, the abrasion quantity of a resin layer is twice or above and the abrasion quantity of the movable plate is 1.5 times or above as compared with the case when 2wt.% or above of aramide short fibers are added. When the addition of aramide short fibers is 9 and 10wt.%, part of aramide short fibers are separated and are not uniformly dispersed in grease and are easily omnipresent during running, the smooth sliding of the roller 15 is disturbed, and a stable shift operation is difficult to perform.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention is applicable to automatic transmissions for light vehicles such as furry bikes, snowmobiles, and water jets, and automatic transmissions as auxiliary equipment for four-wheeled vehicles such as superchargers. This invention relates to V-held type automatic transmissions used in automatic transmissions for machinery, agricultural machinery, general industry, etc.

(Prior art) In the V-belt type automatic transmission used for the above applications, the groove width of the pulley changes according to the change in the engine speed, and the pulley of the endless V-belt that is hung on the pulley changes. The radial contact position at the top changes, and the speed is automatically shifted from the drive shaft side to the driven shaft side.

The pulley has a fixed plate fixed to the pulley shaft and a movable plate that is movable in the axial direction of the pulley shaft, and the movable plate is moved in the axial direction of the pulley shaft using the centrifugal force accompanying the rotation of the pulley shaft. A weight device is provided that can be pushed to vary the groove width of the pulley. This weight device usually has a weight roller slidably disposed on the back side of a movable plate. Then, due to the centrifugal force accompanying the rotation of the pulley shaft, the weight roller slides on the back surface of the movable plate and pushes the movable plate in the direction of the pulley shaft, thereby changing the groove width of the pulley in accordance with the rotation speed.

In this way, the weight roller constantly slides on the back side of the movable plate as the rotation speed of the pulley shaft changes, so the weight roller is prone to wear, and in order for the weight roller to slide smoothly, The surface in contact with the weight roller must have low H friction resistance.

In order to solve this problem, a grease reservoir for lubrication was formed on the back of the movable plate (Utility Model No. 55-1).
52900 (hereinafter referred to as prior art I),
A weight roller is made of fiber-reinforced resin, and a housing portion of the weight roller is filled with grease whose specific gravity or viscosity is adjusted (see Japanese Patent Laid-Open No. 60-245864, hereinafter referred to as prior art (2)). There is.

(Problem to be Solved by the Invention) However, in Prior Art I, the components of the grease are centrifuged due to the high speed rotation of the engine, making it impossible for the grease to fully demonstrate its lubricating function. It could not be suppressed. Furthermore, in this case, if the weight roller was made of metal, it would frequently generate impact sounds, making it unusable.

In addition, in conventional technology I, an oil film existed between the outer periphery of the weight roller and the back surface of the movable plate at low loads, and good lubrication was achieved, but when the load became high, there were places where the oil film broke, and compared to conventional technology I. Similarly, uneven wear occurred on the weight roller.

The present invention has been made in view of the above-mentioned problems of the prior art, and its purpose is to effectively suppress the wear of the weight rollers and perform stable speed change operations.
Our objective is to provide belt-type automatic transmissions.

(Means for Solving the Problems) In order to solve the above problems, the main points of the present invention are as follows: A belt pulley is interlocked with the engine, and the pulley has a fixed plate fixed to the pulley shaft and a pulley shaft. It has a movable plate that is movable in the axial direction, and a weight roller is slidably disposed on the back surface of the movable plate, and the weight roller slides on the back surface of the movable plate due to the centrifugal force caused by the rotation of the pulley shaft. In a V-belt type automatic transmission configured to make the pulley groove width variable by pushing a movable plate while moving the movable plate, the weight roller storage portion on the back of the movable plate is filled with grease, the base oil constituting the grease. A V-belt type automatic transmission characterized in that 2 to 8% by weight of aramid short fibers are added to 100% by weight.

(Function) The grease filled in the storage area of the weight roller contains an appropriate amount of Aramid short fibers, so even when the engine is under high load, these Aramid short fibers will keep the outer periphery of the weight roller and the back of the movable plate intact. Since the weight roller and the movable plate do not come into direct contact with each other even when the oil film is broken, the weight roller does not wear unevenly.

(Example) Regarding an example of the present invention, the overall configuration will first be described based on FIGS. 1 and 2.

Reference numeral 1 indicates a rotating shaft on the drive side (also referred to as a pulley shaft), 2 indicates a pulley whose groove width changes, and the pulley 2 is movable in the axial direction of a disk-shaped fixed plate 3 having a conical surface 5 and the rotating shaft l. It is composed of a short cylindrical movable plate 4 which has a conical surface 6 at the same time. 7 is a seal cover that covers the outer periphery of the movable plate 4.

A V-shaped groove 8 is formed between the above-mentioned opposing conical surfaces 5 and 6, and an endless V-belt 9 is inserted into this V-shaped groove 8, and both sides of this V-belt 9 have conical surfaces. It is held between 5 and 6.

Reference numeral 10 denotes a lamp plate fixed to the rotating shaft l, and the outer peripheral edge of this lamp plate 1-10 is close to the inner peripheral wall of the movable plate 4. A plurality of bifurcated slide pieces 11 are attached to this lamp plate 10 at equal intervals in the circumferential direction, and these slide pieces 11 are provided with a plurality of bifurcated slide pieces 11 protruding from the back surface 12 of the movable plate 4 at equal intervals in the circumferential direction. Guide piece 13
It can be slid freely on the top. The movable plate 4 is guided by the slide piece 11 and the guide piece 13, and the movable plate 4 is guided by the slide piece 11 and the guide piece 13.
It slides in the axial direction of the rotation axis l without rotating relative to o.

A plurality of roller chambers 14 are formed between the back surface 12 of the movable plate 4 and the lamp plater 0, and the roller chambers 14 gradually become narrower toward the outside in the radial direction. A roller 15 is provided. In addition, a guide 6 is formed on the back surface 12 of the movable plate in order to restrain movement of the weight roller 15 in the circumferential direction.

Reference numeral 20 denotes a driven shaft disposed parallel to the rotating shaft 1, and a driven side boot IJ21 is rotatably supported on this driven shaft 20. This pulley 21 includes a fixed plate 22 fixed to the driven shaft 20 and a movable plate 23 that is movable in the axial direction of the driven shaft 20.

The V-belt 9 is suspended between the conical surface 24 of the fixed plate 22 and the conical surface 25 of the movable plate 23,
26 is a centrifugal clutch that transmits the rotation of the boot IJ 21 to the driven shaft 20.

The operation of this embodiment configured as described above will be explained below.

As the rotational speed of the rotating shaft l increases and the centrifugal force acting on the weight roller 15 gradually increases, the weight roller 15
slides radially outward on the back surface 12 of the movable plate 4 to push the movable plate 4 toward the fixed plate 3 (to the left in FIG. 1). As a result, the distance between the movable plate 4 and the fixed plate 3 (width of the V-shaped groove 8) becomes gradually narrower. Therefore, as the rotational speed of the rotating shaft 1 increases, the V-belt 9 suspended around the pulley 2 comes into contact with the pulley 2 on the outer side.
The peripheral speed gradually increases.

Conversely, when the rotation speed of the rotating shaft 1 decreases, the weight roller 1
The centrifugal force acting on weight roller 5 becomes smaller, and weight roller 1
5 moves inward in the radial direction, and the movable plate 4 moves to the right in FIG. In this case, the V heald 9 suspended by the pulley 2 comes into contact with the pulley 2 on the inner side, so the circumferential speed of the V belt 9 decreases.

Therefore, when the rotational speed of the rotating shaft t changes, the contact position of the V-belt 9 with respect to the pulleys 2 and 21 changes, so that the circumferential speed of the V-belt 9 automatically changes steplessly, and the rotation of the rotating shaft 1 changes. It is transmitted to the driven shaft 20.

In FIG. 3, the weight roller 15 is attached to the rear surface 1 of the movable plate 4.
This is an enlarged view of sliding on 2, and 31
is grease, and 32 is aramid staple fiber. The two-dot chain line indicates the weight roller 15 after sliding on the back surface 12 of the movable plate 4, the movable plate 4 after moving in the axial direction on the rotating shaft 1,
and shows a V-belt 9 whose contact position with the pulley has been changed. As shown in FIG. 3, aramid short fibers 32 are present between the weight roller 15 and the back surface 12 of the movable plate 4 or the lamp plate 10, and as a result, the wear of the weight roller 15 is reduced. effectively suppressed.

FIG. 4 is a cross-sectional view of the weight roller 15 used in this example, where 41 is a core metal and 42 is a self-lubricating resin layer coated on the core metal 41. The outer diameter of the weight roller 15 (the outer diameter of the resin layer 42) was 16 mm, the inner diameter of the self-lubricating resin layer 42 was 13III11, the length was 13 mm, and the weight in the assembled state was adjusted to 13.5 gr.

The formulations of grease 31 and self-lubricating resin N42 were as shown in Tables 1 and 2 below, respectively. Note that the numbers indicating the formulation indicate weight %.

Table 1 V with the above configuration in which the amount of aramid short fibers (Technora T322.1111m cut) added to the grease with the formulation as shown in Table 1 was varied in the range of 0 to 10% by weight.
Driving a 50cc Family Bites equipped with a belt-type automatic transmission, traveling at a speed of 40 km/hr and 2
In total, we covered 1000 km, stopping completely every 111 km. Table 3 below shows the maximum wear amount of the self-lubricating resin layer of the weight roller and the maximum wear amount of the movable plate of the drive side pulley (made of aluminum) after running for 11,000 km.

Table 3 The wear amount in Table 3 was measured using a three-dimensional measuring machine.

As is clear from Table 3, the amount of abrasion of the resin layer in the ungrooved grease containing 2% by weight of short aramid fibers was 2% higher than that in the grease containing 2% by weight or more of short aramid fibers. The amount of wear on the movable plate is 1.5 times or more.

Further, although not shown in Table 3, some of the aramid short fibers separated during running in the case where the amount of aramid short fibers added was 9% by weight and 10% by weight.

That is, if too much aramid short fiber is added, it will not be uniformly dispersed in the grease and will tend to be unevenly distributed, which will impede the smooth sliding of the weight roller and make it difficult to perform a stable speed change operation.

However, when aramid short fibers are added to the grease within the scope of the present invention, as is clear from Table 3, the amount of wear on the resin layer and movable plate is very small, and the aramid short fibers do not separate. There wasn't.

In addition, we drove the same Family Bites equipped with a V-belt automatic transmission with the same configuration as in the above example, except that the weight rollers were replaced with metal ones, and the car ran comfortably without making any impact noise. Ta.

In addition, the V-belt type automatic transmission according to the present invention has a great effect when used in a bite with a larger displacement, and the frictional resistance reducing effect of the aramid short fibers is fully exerted, and the grease in the weight roller storage part is reduced. The amount of wear on weight rollers and pulleys can be significantly reduced compared to those without aramid short fibers added.

(Effects of the Invention) According to the present invention, even when the engine is under high load and rotates at high speed, the aramid short fibers are present between the weight roller and the back surface of the movable plate of the pulley, so lubrication is maintained well. . As a result, wear of the weight rollers is effectively suppressed and the V-belt type automatic transmission maintains good operation.

[Brief explanation of drawings]

Fig. 1 is a plan view including a cross section of the transmission device of a motorcycle, Fig. 2 is an enlarged sectional view taken along line A-A in Fig. 1, Fig. 3 is a partial enlarged sectional view of Fig. 1, and Fig. 4 is a weight It is a sectional view of a roller. l...rotating shaft, 2...pulley, 3...fixed play 1-1
4. Movable plate, 8. V-shaped groove, 9. ■ Belt,
12... Back, 15 - Weight roller, 20... Driven shaft, 21... Pulley, 22... Fixed plate, 23...
Movable plate, 31...Grease, 32...Aramid short fiber, 42...Self-lubricating resin layer

Claims (1)

[Scope of Claims] It has a V-belt pulley that is linked to the engine, and the pulley has a fixed plate fixed to the pulley shaft and a movable plate that is movable in the axial direction of the pulley shaft, and the back surface of the movable plate. A weight roller is slidably disposed on the pulley shaft, and the pulley groove width is made variable by pushing the movable plate while sliding the weight roller on the back surface of the movable plate due to the centrifugal force generated by the rotation of the pulley shaft. In a V-belt type automatic transmission in which the weight roller storage section on the back of the movable plate is filled with grease, 2 to 8% by weight of aramid short fibers are added to 100% by weight of the base oil constituting the grease. V characterized by
belt type automatic transmission