JPS6182041A - Chain type belt - Google Patents

Abstract

PURPOSE:To improve durability by supporting a power transmission block by the link plates inside from the outermost link plates and reducing the load applied onto the link plates. CONSTITUTION:An outer link plate 3 arranged on the outermost side does not support a power transmission block 32 and supports only a joint pin 2. The power transmission block 32 is supported by the inner link plates 6 and 7 inside the outer link plate 3. The distance L1 between an engagement edge surface 31 and the link plate 7 for supporting the power transmission block 32 at the position nearest to the engagement edge surface 31 is set long. Therefore, the load applied onto the link plate can be reduced, and the durability of a chain type belt can be increased.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to a chain type belt.

(Prior Art) A chain-type belt is known that includes a power transmission block in which a plurality of pairs of link plates are connected in an endless ring shape via a joint pin, and an engaging end surface that engages with a groove of a pulley is formed at the M end. ing.

(Problem to be Solved by the Invention) However, in the conventional chain type belt, since the power transmission block is supported by the outermost link plate, the engagement end surface of the power transmission block a +7 The distance to the link plate that supports the power transmission block closest to this engagement end surface is short, and when the pulley and chain type belt are engaged, the power transmission block is supported closest to the engagement end surface. A large load acts on the link plate, and stress concentration tends to occur particularly at the edges of the pins and pins, which poses a problem in durability.

The present invention has been devised to solve the above-mentioned problems, and an object of the present invention is to provide a link plate that supports the power transmission block closest to the engagement end surface when engaged with the pulley. The purpose is to reduce the load on the belt and increase the durability of the chain belt.

(Means for Solving the Problems) In order to achieve the above object, the present invention supports a power transmission block by a link plate located inside the outermost link plate, and engages the power transmission block. By ensuring a long distance between the mating end surface and the link plate that supports the power transmission block closest to the mating end surface, and utilizing the flexure of the power transmission block portion, the power can be transmitted closest to the mating end surface. It is characterized by reducing the load on the link plate that supports the transmission block.

(Embodiment) A preferred embodiment of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a partial plan view of a chain type belt according to the present invention;
Figure 2 is the same side view, and Figures 3 to 5 are the m of Figure 2.
-m line, rlr-IT line, and VV line cross-sectional views are shown.

A chain type belt (1) is connected to an outer link plate (3) in an endless ring via a joint pin (2).
and a first ring connected in an endless annular manner via a joint pin (2) and a rocker pin (4). It includes second and third inner link grades (5), (8), and (7). The inner link plates (5), (6).

(7) has a pin fitting hole (+2) with a protrusion (11)
.

(!2), inner link plate (8), (
7) has a protruding apron portion (sb) and (7b) for supporting the power transmission block. The inner link plates (5), (8), and (7) are arranged alternately so that their halves overlap each other, and one first inner link plate (5) is placed in the center, and this inner link plate (
A pair of second inner link plates (6) on the outside of 5)
and a pair of first inner link plates (5) on the outside of the second inner link plate (6).

A pair of third inner link plates (7) are arranged outside the first inner link plate (5), and a pair of outer link plates (3) are arranged outside the third inner link plate (7).

The joint pin (2) and the rocker pin (4) each have a curved rectangular cross section as shown in FIG.
The rocker pin (4) is connected to the inner link plate (5),
(8), (7) pin fitting holes (+2), (12).

(12), and the joint pin (2) is inserted through the pin fitting holes (+2), (+2), and (12) of the inner link plates (5), (8), and (?), and the end is inserted into the outer link plate. Attach it to the pin hole (13) of the link plate (3).

A power transmission block (32) having engaging end surfaces (31), (31) that can be freely engaged with the V-groove surface (22) of the pulley (21).
) are press-fitted into the respective block support holes (33) formed in the apron portions (8b), (?b) of each inner link plate (8), (7), and the block support holes (33), ...The power transmission block (3
2) Fixedly support.

Therefore, the outermost Alantar link plate (
In 3), only the joint pin (32) is supported without supporting the power transmission block (32), and the power transmission block (32) is supported only.
32) is supported by the inner link plates (8) and (7) inside the 7 outer link plate (3).

The power transmission block (3) is located closest to the engagement end surface (31).
2) supporting the link plate (7) and the engaging end surface (31
)11! As shown in FIG. 3, the + distance #(Lt) is set to be longer by (L2-Lt) than the distance (Lt) when supporting by the outermost outer link plate as in the past. .

Since the unexploited shell is constructed as described above, the engaging end surface (31
) The distance between the link plate (7) that supports the power transmission block (32) and the engaging end surface (31)...1 (
Lθ is large, so a large deflection length of the power transmission block (32) can be ensured when engaged with the pulley (21), and when engaged with the pulley (21), the power transmission block (32) portion The bending reduces the load on the link plate (7) that supports the power transmission block (32) closest to the engagement end surface (31), and reduces stress concentration on the edge (2a) of the joint pin (2). This can improve the durability of the chain belt (1).

(Effect of the invention) According to the present invention, as is clear from the above description.

When engaged with the pulley, the load on the link plate that supports the power transmission block closest to the engagement end surface can be reduced, and the durability of the chain belt can be increased.

[Brief explanation of drawings]

FIG. 1 is a partial plan view of a chain type belt according to the present invention;
@Figure 2 is the same side view, Figures 3 to 5 are roughly the same as Figure 2.
They are um line, rV-IT line, and VV line cross-sectional views. In the drawings, (1) is a chain type belt, (2) is a joint pin, (3) is an outer link plate, (4) is a rocker pin, (5), (8), and (7) are inner link plates, ( 21) is a gooley, and (32) is a power transmission block.

Claims (1)

[Claims] In a chain type belt in which a plurality of pairs of link plates are connected in an endless annular shape via joint pins and are provided with a power transmission block, the power transmission block is connected to a link plate located inside the outermost link plate. Chain type belt for support.