JPS6237538A - Tension-type metallic v-belt - Google Patents

Abstract

PURPOSE:To aim at reduction in the number of parts items and the promotion of low-unit cost of production, by forming a recessed part in one side connecting surface in a circumferential section form of each V-block and a projecting part to be engaged with this recessed part in the other side connecting surface, respectively. CONSTITUTION:A recessed part 18 is formed in one side connecting surface in a circumferential section form of each of V-blocks 141, 142...14n and a projecting part 20 to be engaged with this recessed part 18 is formed in the other side connecting surface each, and an engaging form between the recessed part 18 and the projecting part 20 is made up as making these V-blocks 141, 142...14n themselves adjoined with each other relatively rotatable in a plane surface inclusive a belt circumferential direction X as well as making these blocks 141, 142...14n themselves possible to transmit tensile force with one another. In addition, these V-blocks 141, 142...14n are formed into an almost S-shaped form in the circumferential section form, and the rear end side (recessed part) of this S-shaped form is engaged with an S-shaped tip end piece (projecting part) of the next V-block whereby the tensile force among these V-blocks 141, 142...14n themselves is transmitted.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a tension-type metal V-belt, and in particular, to a tension-type metal V-belt, which has a tapered side surface that engages with a V-boo and has a large number of belts connected in the circumferential direction of the belt. (2) This invention relates to improvements in a tension type metal V-belt comprising blocks. [Conventional 1-branch j1 Heavy-duty automatic transmission 81 One of the mechanisms is a belt-driven continuously variable transmission mechanism. This continuously variable speed 8! Generally, the structure has a V-boot, which is made up of a fixed bobbin and a movable pulley and whose effective diameter is variable by hydraulic pressure, on the input shaft and on the output θ, respectively, and the V-boot is spanned between the V-boots. An endless V-belt is used to steplessly change the speed of the rotation of the input shaft to the output side, thereby making it possible to transmit η()5-. Endless V-bell l- used in the continuously variable transmission mechanism of 32 ()
Conventionally, rubber V-belts have been used, but when high torque transmission functions are required, tapered belts that engage the V-pulleys are used. Metal V-belts that have side surfaces and are made of a large number of metal V-blocks connected in the circumferential direction of the belt have come to be used.When this metal V-belt is used as a tension type, for example, As disclosed in Sho 57-22442-C,
It is known that each metal V-block is connected by four chains. (Problem that the invention seeks to solve) However, such a conventional diene type metal V
) ＼ Ruto consists of many parts, and depending on luck Φi
[Purpose of the Invention] The present invention has the problem of high noise levels, high manufacturing costs, and many similar control items to ensure quality. This design was developed in response to the problem of the metal V-belt of the chain type, and realized a simple configuration with a small number of parts and low noise. Metal tensioning is low cost and easy to control the quality of each part! 9 (Means for solving the problem) The present invention has a tapered side surface that engages with a V-boot,
In a tensile metal mvV belt comprising a large number of V blocks connected in the circumferential direction of the belt, a recess is formed on one connecting surface of the circumferential cross-sectional shape of each V block, and the other connecting surface is engaged with the recess. At the same time, the engaging shapes of the recesses and the projections are such that the adjacent V blocks can rotate relative to each other in a plane including the belt circumferential direction, and the V blocks can exert a tensile force on each other. The above object has been achieved by forming it so that it can be transmitted. A preferred embodiment of the above structure is to form a groove along the circumferential direction of the belt on the outer periphery of the V block, and to equip the groove with an endless metal band. This makes it possible to further strengthen the connection between the metal V-foots 09, and to prevent the metal V-blocks from disassembling each other even if an unexpected external force is applied. Preferably, the circumferential length of the contact surface between the endless metal band and the V block is set such that the V block has a longer circumference in a free state. As a result, the endless metal strip can bear the initial tension, and the tension burden caused by each metal block can be reduced accordingly.
■ Pel 1 ~ It is possible to secure a larger overall transmission capacity. [Function] In the present invention, at t5, a recess is formed on one connecting surface of the circumferential cross-sectional shape of each V block, and the recess (
Since power can be transmitted by the engagement and connection of the two engaging convex portions, lRL, and the concave portion and convex portion, it is possible to transmit power by engaging and combining the concave portion and the convex portion. [Example] The following drawings [38 Step by step] Actual 111i!Example 2 will be explained in detail.First t1-τ131 threshold t, shows a first embodiment of the present invention.This embodiment is a tapered 7I-side surface 12A that engages with V pulleys 10A, 10B. , 12B base, and a large number of V blocks 147, 142, . . . connected in the belt circumferential direction X.
, 14n, each of the blocks 14+, 142, . The convex portions 20 that engage with the concave portions 18 and the convex portions 20 are respectively formed, and the engagement shapes of the concave portions 18 and the convex portions 20 are adjusted to match the adjacent V blocks 14+, 142. ..., 14n can rotate relative to each other in a plane including the bell 1-circumferential direction X, and the V blocks 141, 142. ..., 14
It is formed so that tensile force can be transmitted between the n members. The above-mentioned ■blocks 141, 142, . ) by engaging with the blocks 14+, 142, .
..., 140The tensile force can be transmitted through the same earthen floor. The engaging contact surfaces of the concave portions 18 and the convex portions 20 of each V block 14+, 14z, -114n are connected to the adjacent V blocks 14.
+, 14z, and -114n are formed into circular arc surfaces with the same radius so that they can rotate relative to each other in a plane including the belt circumferential direction X. Further, the outer peripheral side of the S-shaped belt is rectangular, and adjacent V blocks 14+, 14z, -
114n can be connected to each other in a stable state. On the outer periphery of the blocks 141, 142, . . . , 14n, there are marks in the belt circumferential direction : A longitudinal groove 22 is formed, and an endless metal band 24 is fitted into the groove 22. This endless metal band 24 includes a metal plate 24+ of the thickness 1,
242,..., 24n? ! It is formed by layering several layers horizontally. Moreover, this endless metal band 24 has a circumferential length of the contact surface with ■ blocks 141, 142, . . . , 14n in a free state.
It is set to reach more than 4n. That is, ■block 14
For example, when the circumferential length of the contact surface with respect to the endless metal band 24 of 1,142, . . . , 14n is 700.3 mm, the circumferential length of the endless metal band 24 is set to 700 mm. As a result, as shown in FIG.
4 will be given the initial tension Fo, and conversely, the V blocks 141, 142, ..., 140 will be given the V pulley 1
The compression car Fo will be added without power transmission from 0A and 10B. Therefore, it is possible to keep the shared tension of the V-block low in the range of actual operating conditions, and it is possible to ensure a correspondingly large V-belt transmission allowable tension. By the way, when assembling this metal V-belt 16, with respect to the endless metal band 24, ■blocks 141, 142,...
・, 14 n-1 are assembled one by one from the inner peripheral side of the belt, and only the last V block 14n is cut out on one side of the groove 22 as shown in FIG. All V blocks 141,
142, . . . , 14n may be mounted. A second embodiment of the present invention is shown in FIGS. 5 and 6. In this embodiment, each V block 30+, 30z,...
, 300 are approximately dogleg-shaped, and the concave portion 32 and convex portion 34 of the same radius formed on the dogleg-shaped protrusion valve engage with each other. Additionally, a groove portion 36 for storing the endless metal strip 35.35 is provided.
．． 36 are arranged on both sides of the V block in the belt width direction. As a result, each V block 304.30z,...
V pulley 10A, 1 without almost separating 30n
It can rotate around 0B, so the rotational stability is high and the rotational speed is low. It is possible to achieve low friction and low wear. A third embodiment of the present invention is shown in FIGS. 6 and 7. In this embodiment, the concave portion 42 and the convex portion 44 are formed at the center position in the belt width direction of the V blocks 401, 402, . . . , 40n. The part 48 is the concave part 42 and the convex part 44
It is formed on both sides of the belt in the width direction. By configuring the recesses 42 and protrusions 44 in such an engaging shape, or the endless metal belt 46, it is possible to realize a metal belt with low friction and low wear. In each of the above embodiments, an endless metal band is fitted around the outer periphery of the V-block to maintain strong connectivity between each V-block and to apply negative initial tension to each V-block. Although an attempt was made to increase the overall permissible transmitted power, in the present invention, it is not necessary to provide this endless metal band. [Effects of the Invention] As explained above, according to the present invention, it is possible to realize a simple configuration with a small number of parts, and therefore it is possible to easily manage the individual parts of the V-belt, and to create a low-noise, low-cost tension-type belt. A submerged effect is obtained in that it becomes possible to obtain a metal V-belt.

[Brief explanation of drawings]

FIG. 1 is a partial front view showing a first embodiment of the tensile metal V-belt according to the present invention, and FIGS. 2 and 3 are taken along the lines ■-■ and mm in FIG. 1, respectively. The cross-sectional view, Figure 4, is
FIG. 5 is a sectional view taken along line V-V in FIG. 4, and FIG. 6 is a partial front view corresponding to FIG. 1 showing a second embodiment of the present invention. A partial front view corresponding to Fig. 1, Fig. 7 is a sectional view along Fig. 6 - Vl all, and Fig. 8 is a
FIG. 6 is a diagram showing the relationship between the V pulley thrust and the belt tension when the circumferential length of the contact surface between the endless metal band and the V block is in a free state and the block (2) is set longer than the other; 10A, 10B...Pulley, 12A, 12B...Side surface, X...Belt circumferential direction, 14+, 14z,..., 14n, 30+, 30z,..., 300. 40+, 40z, -140n...V block, 18.32.42...Concave part, 22.36.48...Groove part, 20.34.44...Convex part, 24.35.46...・Endless metal band.

Claims (3)

[Claims] (1) In a tension-type metal V-belt comprising a large number of V-blocks connected in the circumferential direction of the belt and having tapered side surfaces that engage with V-pulleys, one connection of the circumferential cross-sectional shape of each V-block. A concave portion is formed on the surface, and a convex portion that engages with the concave portion is formed on the other connecting surface, and the engagement shapes of the concave portion and the convex portion are set so that adjacent V blocks are arranged in a plane including the belt circumferential direction. A tension-type metal V-belt, characterized in that it is formed to be relatively rotatable and to be able to transmit tensile force between the V-blocks. (2) A tension type metal according to claim 1, characterized in that a groove along the circumferential direction of the belt is formed in the outer peripheral portion of the V block, and an endless metal band is fitted in the groove. V-belt. (3) The tensile metal V-belt according to claim 2, wherein the circumferential length of the contact surface between the endless metal band and the V-block is set such that the V-block has a longer circumference in a free state.