JPH0377002B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to an apparatus for manufacturing an endless metal belt used for power transmission.

[Technical background of the invention and its problems]

For example, endless metal belts used in continuously variable transmissions for automobiles or general power transmission applications generally transmit power via pulleys 1, 1, as schematically shown in FIG. For this reason, the endless metal belt 2
When used, the pulleys 1, 1 are used under severe stress conditions in which tensile stress is applied to the outside and compressive stress is applied to the inside, and repeated bending stress is applied.

For this reason, attempts have been made to apply tensile stress to the inner circumferential side of the metal belt in advance, as seen in, for example, Japanese Patent Application Laid-Open No. 53-42172 (Japanese Patent Publication No. 58-41930). This was not enough to improve the situation.

[Object of the Invention] The present invention was made based on the above circumstances, and its purpose is to provide an endless metal belt manufacturing apparatus that is highly effective in improving the fatigue life of such metal belts. There is a particular thing.

[Summary of the invention]

A first gist of the present invention is to provide at least a pair of tension rollers that apply tension to an endless metal belt while running the metal belt, and an outer circumferential surface of the metal belt while the metal belt is running. There is provided an endless metal belt manufacturing apparatus characterized in that it is equipped with a peening device that performs shot peening.

By adopting the above configuration, it is possible to generate compressive residual stress on the outer circumferential surface of the belt by shot peening when stress is applied to the metal belt, which increases the durability of this type of endless metal belt that is subject to repeated bending stress. It has become possible to significantly improve the

Furthermore, the gist of the second invention is to include at least a pair of tension rollers for applying tension while winding an endless metal belt and running the metal belt; A bending roller that contacts the inner peripheral surface and presses the metal belt from the inner peripheral side toward the outside, and a peening device that applies shot peening to the outer peripheral surface of the metal belt while running the metal belt. An endless metal belt manufacturing apparatus is characterized in that:

According to the above configuration, in addition to being able to generate compressive residual stress on the outer peripheral surface of the endless metal belt by shot peening while applying tension, residual stress due to the bending rollers can be effectively generated in the metal belt. This synergistic effect is extremely effective in improving the fatigue life of the endless metal belt.

[Embodiments of the invention]

A first embodiment of the present invention will be described below with reference to FIG. In the figure, reference numerals 10 and 11 indicate tension rollers. At least one of these tension rollers 10 and 11 is configured to be rotationally driven by a drive mechanism (not shown), and an endless metal belt 2 is wound around it to cause the belt 2 to run endlessly. Further, the tension rollers 10 and 11 are configured so that the distance between them can be changed and tension can be applied to the metal belt 2. For example, this metal belt 2 has a thickness of
It is preformed into an endless band shape from stainless steel or the like with a thickness of about 0.1 mm to 0.3 mm. However, the material and thickness do not matter.

A peening device 12 for subjecting the metal belt 2 to shot peening is provided. This peening device 12 uses, for example, centrifugal force or compressed air to strike small steel balls, cut wires, sand, glass grains, or other appropriate granular or powdered materials onto the outer peripheral surface of the metal belt 2. This produces compressive residual stress on its surface. The peening device 12 strikes the shots while the metal belt 2 is running, and performs shot peening uniformly and continuously.
Note that a backing plate 13 is provided inside the metal belt 2.

According to the present embodiment having the above configuration, shot peening can be performed on the outer peripheral surface of the metal belt 2 while stress is applied to the metal belt 2 by the tension rollers 10 and 11. However, by carrying out the above shot peening, the metal belt 2
The outer peripheral surface of the belt 2 has a larger amount of expansion than the inner peripheral surface, and a compressive residual stress is applied to the outside of the belt 2, and a tensile residual stress is applied to the inside of the belt 2. This allows the endless metal belt 2 to exhibit excellent durability.

FIG. 3 shows a second embodiment of the invention. This embodiment is similar to the first embodiment in that it includes tension rollers 10 and 11 and a peening device 12, but the tension roller 1
This embodiment is different from the first embodiment in that a bending roller 15 is provided between 0 and 11. The bending roller 15 contacts the inner peripheral surface of the metal belt 2 and presses the belt 2 from the inner peripheral side to the outside. The peening device 12 is provided at a position facing the bending roller 15, and the metal belt 2 is
Shot peening is performed on the outer circumferential surface of the

According to the second embodiment with the above configuration, the metal belt 2
Not only can compressive residual stress be generated by shot peening on the outer circumferential surface of the bending roller 15 while tension is applied to the bending roller 15,
Since the shot peening is performed at the position of the bending roller 15 while bending the metal belt 2, stress peening can be made more effective. Furthermore, the bending roller 15 can apply tensile residual stress to the inner circumferential side of the metal belt 2. The above synergistic effect is extremely effective in improving the fatigue life of the endless metal belt 2. Note that the initial stress increases as the diameter of the roller 15 becomes smaller. Therefore, it is preferable that the diameter of the roller 15 is at least smaller than the diameter of the tension rollers 10 and 11.

Note that in order to effectively generate residual stress, it is desirable to perform shot peening at the position of the bending roller 15 as described above, but it is preferable to perform shot peening at a position other than the bending roller 15. Even with this configuration, the intended purpose of the present invention can be achieved.

Note that the magnitude and depth of the residual stress vary depending not only on the strength of the shot peening but also on the magnitude of the tension applied to the metal belt 2, the magnitude of the bending stress applied by the bending roller 15, etc. It is possible to change to In addition, by configuring the bending roller 15 to be able to reciprocate in the direction of arrow A in the figure, the shot peening effect and the effect of the bending roller 15 can be changed, and the depth and magnitude of residual stress can be adjusted. It may be possible to do so.

〔Effect of the invention〕

As described above, according to the present invention, it is possible to generate residual stress that is effective in improving the durability of the endless metal belt, and it is extremely effective in improving the fatigue life of the endless metal belt. Moreover, in the apparatus of the present invention, the metal belt that is the workpiece is run endlessly between a pair of tension rollers and a shot is struck on a part of the belt, so the peening apparatus for carrying out shot peening is relatively compact. Even if the belt itself moves, a uniform shot peening effect can be finally obtained over the entire length of the belt.

[Brief explanation of drawings]

FIG. 1 is a diagram schematically showing how an endless metal belt is used, FIG. 2 is a schematic diagram showing a first embodiment of the present invention, and FIG. 3 is a schematic diagram showing a second embodiment of the present invention. . 2... Endless metal belt, 10, 11... Tension roller, 12... Peening device, 15... Bending addition roller.

Claims (1)

[Scope of Claims] 1. At least a pair of tension rollers that wrap around an endless metal belt and apply tension while running the metal belt, and shot peening the outer peripheral surface of the metal belt while running the metal belt. An endless metal belt manufacturing device characterized by comprising a peening device for peening. 2. at least a pair of tension rollers that wrap around an endless metal belt and apply tension while running the metal belt; An apparatus for manufacturing an endless metal belt, comprising: a bending roller that presses outward from the circumferential side; and a peening device that performs shot peening on the outer peripheral surface of the metal belt while running the metal belt. . 3. Manufacturing the endless metal belt according to claim 2, wherein the peening device is provided at a position facing the bending roller, and the shot peening is performed at the position of the bending roller. Device.