JPH0716131Y2 - V belt for high load transmission - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a high-load transmission V-belt used in automobiles, agricultural machines, general industrial machines, etc., in particular, a block type high belt with an internal reinforcing member embedded therein. The present invention relates to a load transmission V-belt.

(Prior Art) Currently, gears or hydraulic transmissions are used as transmissions for automobiles, combine harvesters, tractors, etc., but in recent years, belt type continuously variable transmissions have been used for the purpose of improving operability and fuel consumption. Development of the device is in progress.

Since the belt used in this belt type continuously variable transmission requires an extremely high torque transmission capability, the conventional rubber V-belt cannot withstand a high lateral pressure and must be buckled and used. I can't.

Therefore, various types of high-load transmission belts have been proposed in the past (for example, JP-A-46-4861 and JP-A-55-27).
(See Japanese Patent Laid-Open No. 595 and Japanese Patent Laid-Open No. 59-77147).

In addition, the applicants also filed in JP-A-60-49151 and JP-A-61-2.
As described in Japanese Patent No. 06847 and Japanese Patent Laid-Open No. 62-151646, an endless tension band and a plurality of blocks that are locked to the tension band in the belt longitudinal direction and whose left and right side surfaces engage with the pulley surface of the pulley. We propose a V-belt consisting of

As such a V-belt, the entire block is formed only of a non-metal material such as a synthetic resin material, and a reinforcing member made of a metal material or the like having a shape corresponding to the shape of the block is embedded inside the block. Some are known. For example, as shown in FIGS. 4 and 5, the upper beam portion e, the lower beam portion f, and the center pillar are formed in a shape corresponding to the shape of the block d including the upper beam portion a, the lower beam portion b, and the center pillar portion c. It is known that a reinforcing member h made of a part g, such as metal, is embedded inside a block d.
Incidentally, i and j are tension bands with which the block d is locked in the belt longitudinal direction.

(Problems to be solved by the invention) However, in the belt using the block d having such a reinforcing member h, as shown in FIG. 6, when the block d enters and leaves the pulley l, When the block d moves in and out at a right angle to the pulley l, the block side surface d ₁ which is the belt side surface and the pulley surface l ₁ come into uniform contact with each other (see FIG. 7). As described above, when engaging with the pulley 1, the block d vibrates (swings) in the traveling direction when viewed from the side with respect to the traveling direction of the V-belt, and when the block d does not come in and out at a right angle, the block d The upper ends d ₂ and d ₂ of the block come into contact with the pulley surface l ₁ (see FIG. 9), which causes the upper ends d ₂ and d _{2 of the} block d.
Damage occurs early in the vicinity.

That is, if the block d is in the hit state, the block d
And the pulley 1 come into line contact with each other. At this time, the point of application of the force F received by the block 1 from the pulley 1 is the portion where the width of the block d is the widest, that is, the left and right upper ends d ₂ , of the block d.
When the force F is large, d ₂ is generated, and when the force F acts, a moment M acts to peel off the upper end portion (non-metallic material portion) of the block d from the reinforcing member h, and when the force F is large, it is shown in FIG. As described above, the non-metallic material portions d _{3 at} the upper ends d ₂ and d ₂ of the block d are missing, resulting in damage.

Incidentally, Japanese Utility Model Application Laid-Open No. 63-106943 discloses a block in which the upper part of the block is cut obliquely in order to prevent the block from being chipped, but this block has a reinforcing member inside. However, it cannot be directly applied to a block having a reinforcing member.

The present invention has been made in view of the above points, and an object of the present invention is to provide a V-belt for high load transmission which is excellent in strength against rocking of a block when engaged with a pulley.

(Means for Solving the Problems) The invention according to claim (1) comprises an endless tension band and a plurality of non-metallic materials that are locked to the tension band in the belt longitudinal direction and whose left and right side surfaces engage with the pulley. And a reinforcing member having a shape corresponding to the shape of the block is embedded in the inside of the block, the reinforcing member includes right and left portions corresponding to left and right upper end portions of the block. A flat portion extending in the vertical direction is formed on the left and right upper end surfaces of the upper end portion, while the block has an inclined surface formed on the upper end portions of the left and right side surfaces, and the lower end of the inclined surface is the outer side in the left and right direction of the flat portion. When the pulley is engaged with the pulley and is tilted in the belt traveling direction when engaging with the pulley, the point of action of the force received from the pulley is located outside the flat portion of the reinforcing member in the left-right direction. To configure.

That is, it is intended to improve the strength of the portion of the block having only the non-metallic material having a problem in strength by devising the relative shape relationship between the block and the reinforcing member embedded in the block. In terms of material mechanics, the shearing force and the tensile force generated inside the non-metallic material of the block are reduced.

The invention according to claim (2) is the device according to claim (1), in which the block includes an upper beam portion extending in the left-right direction,
The lower beam portion that is shorter than the upper beam portion and extends in the left-right direction in parallel with the upper beam portion, and the center pillar portion that connects the central portions of the upper beam portion and the lower beam portion, and the reinforcing member is provided in the block. In a corresponding shape, the upper beam portion, the lower beam portion, and the center pillar portion are formed, and flat portions extending in the up-down direction are formed on the left and right upper end surfaces of the upper beam portion of the reinforcing member.

(Operation) According to the inventions of claims (1) and (2), when the block tilts in the front-rear direction during traveling, when the block engages with the pulley, the left-right direction of the flat portion of the reinforcing member Since the lower ends of the inclined surfaces formed on the upper end portions of the left and right side surfaces of the block are located on the outer side, the point of action of the force received from the pulley is located on the outer side in the left-right direction of the flat portion of the reinforcing member. The force received from the pulley acts on the flat portion of the reinforcing member in a direction substantially perpendicular to the flat portion, and at the upper end portion of the block, the moment to peel off the non-metallic material forming the block from the reinforcing member. Will hardly work.

Embodiment An embodiment of the present invention will be described below with reference to the drawings.

As shown in FIGS. 1 and 2, 1 is a V-belt, which is a pair of endless tension bands 2 and 3 and a plurality of blocks 4 locked to the tension bands 2 and 3 in their longitudinal direction. , 4, ... and.

Fitting grooves 5 and 6 are formed on the side portions of the block 4 so that the tension bands 2 and 3 are fitted to the side surfaces 4a and 4b so as to be detachable in the belt left-right direction. Convex portion at the center of the upper surface of 6 (only the convex portion 7 of the fitting groove 6 is shown)
However, a curved convex surface projecting upward (only the curved convex surface 8 of the fitting groove 6 is shown) is formed on the lower surface.

The tension bands 2 and 3 are formed by embedding a core body 10 in a rubber member 9. On the upper and lower surfaces of the tension bands 2 and 3, there are mating grooves 5 and 6 of the block 4.
Recesses 11, 12, 13, 1 that mesh with the convex or curved convex surface in
4 are provided.

The block 4 includes an upper beam portion 4c extending in the left-right direction,
A shape including a lower beam portion 4d shorter than the upper beam portion 4c and extending in the left-right direction in parallel with the upper beam portion 4c, and a center pillar portion 4e connecting the central portions of the upper beam portion 4c and the lower beam portion 4d. The side surfaces 4a and 4b of the block 4 are formed to be inclined side surfaces that engage with the pulley.

A reinforcing member 11 smaller than the block 4 and having a shape corresponding to the block 4 is embedded in the block 4. That is, the reinforcing member 11 is composed of an upper beam portion 11a, a lower beam portion 11b and a center pillar portion 11c, which are located inside the upper beam portion 4a, the lower beam portion 4b and the center pillar portion 4c of the block 4, respectively. It is buried in.

Further, in the reinforcing member 11, flat portions 11d and 11e extending in the vertical direction are formed on the left and right end surfaces of the upper end portion of the upper beam portion 11a. Correspondingly, the left and right side edges of the block 4 have chamfered inclined surfaces 4f and 4g.
When the block 4 tilts in the front-rear direction and engages with the pulley, the left and right action points P1 and P1 of the force F received from the pulley, that is, the lower end of the inclined surface 4f (4g) is the above-mentioned as shown in FIG. The flat portion 11d (11e) is located outside in the left-right direction.

With the above configuration, when the block 4 moves in and out at the entrance of the pulley at a right angle to the pulley while the V belt 1 is running, the side surfaces 4a, 4b of the V belt 1 (block 4) are arranged.
And the pulley surface of the pulley make uniform contact. This point is similar to the conventional V belt.

In addition, even if the block 4 vibrates in the traveling direction during traveling and the block 4 tilts in the front-rear direction and hits the upper side, and the block 4 and the pulley come into line contact with each other, the force from the pulley is increased. Point of action P1 on block 4 of F
Is located on the outer side of the flat portion 11d of the reinforcing member 11 in the left-right direction, the force F can be received by the entire flat portion 11d, and the upper end portion of the block 4 (non-metallic material portion).
The moment M for peeling the rubber from the reinforcing member 11 is not generated, and therefore the block 4 is not damaged.

Therefore, the strength of the upper end portion of the block 4 is significantly improved as compared with the block V belt having the conventional reinforcing member.

In the above embodiment, the block includes an upper beam portion that extends in the left-right direction, a lower beam portion that is shorter than the upper beam portion and extends in the left-right direction in parallel with the upper beam portion, and a central portion of the upper beam portion and the lower beam portion. This is an example applied to a high load transmission V-belt having a shape including a center pillar portion for connecting the above. However, the present invention is not limited thereto, and the endless tension band and the belt in the belt longitudinal direction. A V-belt having a plurality of blocks made of a non-metallic material that are engaged with each other and engage with pulleys on the left and right sides, and a reinforcing member having a shape corresponding to the shape of the block is embedded inside the block. If all are applicable.

(Advantages of the Invention) As described above, the inventions according to claims (1) and (2) are arranged on the outer side of the flat portion of the reinforcing member in the left-right direction when the block engages with the pulley. Since the lower end of the inclined surface formed at the upper end of the side surface is located, the point of action of the force received from the pulley is located outside the flat portion of the reinforcing member in the left-right direction Even when the block is tilted in the front-rear direction and the upper contact state occurs, the force acting on the block does not act on the reinforcing member so as to peel off the upper end portion of the block. Therefore, the block is excellent in strength against the deflection in the traveling direction of the block, and high load transmission can be performed.

[Brief description of drawings]

1 to 3 show an embodiment of the present invention, FIG. 1 is a perspective view of a high load transmission V-belt, FIG. 2 is a longitudinal sectional view of the same, and FIG.
The figure is an illustration of the operation. 4 to 10 show a conventional example, FIG. 4 is a side view of a V-belt, FIG. 5 is a longitudinal sectional view of the same, and FIGS. 6 and 7 show that the block does not tilt in the belt traveling direction. Fig. 8 is an explanatory view when engaged with a pulley, Figs. 8 and 9 are explanatory diagrams when engaged with a pulley when the block is inclined in the belt traveling direction, and Fig. 10 is a condition where the upper end of the block is damaged. FIG. 1 …… V belt, 2,3 …… tension band, 4 …… block, 4c,
11a ... upper beam part, 4d, 11b ... lower beam part, 4e, 11c ...
… Center pillar, 4f, 4g …… Slope, 11 …… Reinforcement member, 11d, 11e …… Flat

Claims (2)

[Scope of utility model registration request] 1. An endless tension band, and a block made of a plurality of non-metallic materials which are locked to the tension band in the belt longitudinal direction and whose left and right side surfaces engage with pulleys.
In a high load transmission V-belt in which a reinforcing member having a shape corresponding to the shape of the block is embedded inside the block, the reinforcing member is provided on left and right upper end surfaces of left and right upper end portions corresponding to the left and right upper end portions of the block. While the flat portion extending in the vertical direction is formed, the block has an inclined surface formed at the upper end portions of the left and right side surfaces, and the lower end of the inclined surface is positioned outside the flat portion in the left-right direction. A high load characterized in that the point of action of the force received from the pulley is located on the outer side in the left-right direction of the flat portion of the reinforcing member when the belt is inclined in the traveling direction during engagement with Transmission V-belt. 2. The block comprises an upper beam portion extending in the left-right direction, a lower beam portion shorter than the upper beam portion and extending in the left-right direction in parallel with the upper beam portion, and a central portion of the upper beam portion and the lower beam portion. The reinforcing member has a shape corresponding to the above block, and includes an upper beam portion, a lower beam portion, and a center pillar portion. The high load transmission V-belt according to claim 1, wherein a flat portion extending in the direction is formed.