KR970000641Y1 - Flexible chain - Google Patents

Abstract

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Description

Flexible Chain

1 is a plan view, front view and A-A partial sectional view of the flexible chain of the present invention.

Figure 2 is an illustration of the state of motion of the flexible chain of the present invention.

Figure 3 is an illustration of the installation state of the flexible chain of the present invention.

＊ Explanation of symbols for main parts of drawing

1: External link plate 2: Internal link plate

3: roller 4: bush

5: Pin 6: Split Pin

7: Sprocket

The present invention relates to a flexible chain capable of transmitting power including horizontal and torsional movement components with respect to the direction of travel of the chain, regardless of the installation surface or direction of the sprocket.

The conventional chain has a strict restriction on the position selection when installing the sprocket because the chain is configured by aligning and connecting the connecting pins in one direction with pins, so that power can be transmitted only in the direction of the chain. When separate sprockets have to be installed, the number of parts of the machine is increased, the configuration is complicated, and thus, many sprockets have to be driven, so there is a problem such as excessive consumption of fuel. In the present invention (practical 91-943), power transmission is possible only at right angles such as the X-axis, Y-axis, and Z-axis, so power transmission in non-orthogonal directions such as 30 degrees and 270 degrees also depends on complicated mechanical configurations. In addition, frictional slip occurred between the connecting pin of the chain and the sprocket teeth during power transmission. Therefore, the wear was severe, the structure of the chain itself is complicated and heavy weight, there was a big problem in the design constraints.

The present invention is to solve the problems as described above, the structure of the chain itself is simple, while the power can be transmitted by installing the sprocket in any arbitrary direction and angle as well as the right-angle direction such as the X-axis, Y-axis, Z-axis Its purpose is to provide a flexible chain that is light in weight and that prevents damage to the chain and sprockets due to friction.

In order to achieve the above object, the present invention is to process a round end face facing the outer link plate and the inner link plate, and to make the inner diameter of the bush coupled to the inner link plate larger than the outer diameter of the pin inserted therein. It is characterized by the configuration.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view, front view and A-A partial sectional view of the flexible chain of the present invention. The inner link plate 2 and the roller 3 are integrally assembled by the bush 4, and the outer link plate 1 is forcibly fitted or divided at both ends by a pin 5 penetrating the bush 4. (6) is fixed by, etc., the outer surface end of the outer link plate 1 and the inner link plate (2) is spherical processing, the inner diameter of the bush (4) coupled to the inner link plate (2) is a pin It is comprised larger than the outer diameter of (5).

Hereinafter will be described the operation of the present invention.

2 is an exemplary view illustrating a state of motion of the flexible chain of the present invention. When turning in the horizontal direction (A) with respect to the traveling direction of the chain, as shown in FIG. 2 (a), the spherical surface of the outer link plate 1 and the spherical surface of the inner link plate 2 come into contact with each other and slide, causing the chain to slip. The spherical surface of the outer link plate 1-1 of the bent inner side A comes into contact with the plane of the abutted inner link plate 2-1, and the plane of the opposite outer link plate 1-2 abuts the abutted inner link plate ( While contacting the sphere of 2-2), the pin (5) is moved to the center of the inside of the hole of the bush (4). In addition, when the torsion B occurs in the horizontal direction of the chain, as shown in FIG. 2B, the spherical surface of the outer link plate 1 and the spherical surface of the inner link plate 2 come into contact with each other and slide. The outer link plate 1-3 in the torsion direction B side moves downward from the abutting inner link plate 2-3, and the outer link plate 1-4 on the opposite side abuts the inner link plate 2-4. The pin 5 moves obliquely inside the hole of the bush 4 while moving upwards. When moving in engagement with the teeth of the sprocket (7), the power is transmitted to the mutual rolling motion while the friction is minimized by the rotation of the roller (3).

3 is an exemplary view illustrating an installation state of the flexible chain of the present invention. The chain can be flexed and twisted smoothly regardless of the mutual installation angle of the drive sprocket 7 and the driven sprocket 7.

Therefore, according to the present invention as described above, because it is possible to bend horizontally with respect to the direction of the chain or twisted with respect to the horizontal direction of the chain, sparrows in any arbitrary direction and angle as well as right-angle directions such as the X-axis, Y-axis, and Z-axis. It is a very practical design that has the effect of preventing the damage caused by friction between the chain and the sprocket, because the structure of the chain itself is simple, but the chain itself is simple. .

Claims (1)

In a flexible chain capable of transmitting power including horizontal and torsional movement components with respect to the chain's advancing direction regardless of the mounting surface or direction of the sprocket, the inner link plate 2 and the roller 3 are connected to the bush 4. It is integrally assembled by the outer link plate (1) is fixed to the both ends by a pin (5) through the bush (4) by an interference fit or a split pin (6), the outer link plate (1) And the opposite end of the inner link plate (2) is spherical, and the inner diameter of the bush (4) coupled to the inner link plate (2) is larger than the outer diameter of the pin (5).