KR100441936B1 - Link structure of automatic tool exchanger to prevent components by preventing overload with spring in link - Google Patents

Abstract

PURPOSE: A link structure is provided to prevent the damage of inner components and a tool by separating an operating pin from a second link when an overload is generated. CONSTITUTION: A forward rod is separated to a first link(10) and a second link(20). An operating pin(40) and a spring(50) are installed in the first link and the second link A key(70) to decide the pressure of the spring is installed in the first link. The operating pin is installed in the first link to separate the first link and the second link. Thereby, the damage of inner components is prevented at an overload.

Description

Link structure of automatic tool changer

The present invention relates to a link structure of an automatic tool changer, and more particularly, by installing a spring on a link for holding a tool, to prevent overloading caused by the tool so that durable parts are prevented from being dispatched. The link structure of the tool changer device.

In the link structure of the conventional automatic tool changer, a combined cam is rotatably installed on a drive motor, and the combined cam is coupled to a cam follower for cylindrical cams and a forward load ring bound to a rotary cam follower and cam follower.

In the link structure of the conventional automatic tool changer, when the driving motor installed in the body rotates, the combined cam installed on the same axis rotates, and the cam follower rotating for the flat cam constrained by the flat cam and the cylindrical cam installed in the composite cam. When the Let Cam Follower moves along the cam groove, the momentum of the cam follower installed in the flat cam is transmitted to the forward cam follower through the battery link, and the front and back of the battery load are moved forward and backward by the forward load bound by the cam follower. Rotating cam cam follower is rotated along the cam groove of the cylindrical cam when the backward movement is made of a structure in which the twin arm is rotated by the rotary turret connected with the cam follower is rotated.

At this time, the forward and backward rods protrude to the outside of the body, and are partially derived even when moving forward.

However, the link structure of the conventional automatic tool changer is formed by forming the rotary tarlet as the rotating mechanism and the forward and backward link as the forward and backward mechanisms on the same twin arm shaft, so that the forward and backward rods protrude out of the body by the forward distance. There is a problem that the installation area becomes large, it becomes impossible to install the automatic tool device in the minimum section.

An object of the present invention is to solve the conventional problems as described above, is formed by dividing the advanced rod into the first link and the second link, and the movable pin and the spring is installed on the first and second links of the genital Thus, when an overload specified in the spring occurs, the movable pin and the second link is separated, thereby providing a link structure of the automatic tool changer to prevent the internal parts and mechanisms from being damaged.

1 is a cross-sectional view showing a link structure of an automatic tool changer according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: first link 20: second link

30: composite cam 40: movable pin

50: spring 60: forward rod

70: tall

Hereinafter, the technical configuration of the present invention with reference to the accompanying drawings in detail as follows.

Link structure of the automatic tool changer according to the embodiment of the present invention, as shown in Figure 1, is formed by dividing the advanced rod into the first link 10 and the second link (20), The first link 10 and the second link 20 has a movable pin 40 and the spring 50 is installed as a basic feature of the technical configuration.

On the other hand, it is revealed that the key 70 for designating the pressure of the spring 50 is installed in the first link (10).

In addition, the first link 10 is preferably provided with a movable pin (40).

The operation of the automatic tool changer according to the embodiment of the present invention configured as described above is as follows.

If the forward rod 60 is overloaded by the key 70 during the forward and backward operation, the movable pin 40 is retracted while retreating through the groove formed in the second link 20. The first link 10 and the second link 20 are separated, and the composite cam 30 receiving the rotational force of the driving motor performs the remaining cam cycle continuously under no load, and the forward and backward moving rod 60 remains in a stopped state.

When the automatic tool change is performed again by manual operation, the movable pin 40 is retracted from the position where the first link 10 is tilted to return to the initial disengagement state.

Therefore, the present invention employs the movable pin 40 that separates the advanced road link into the first link 10 and the second link 20, thereby preventing damage to the internal parts even when overloaded. There is.

Claims (2)

The forward rod is formed by dividing the first link 10 and the second link 20, The first link 10 and the second link 20 is provided with a movable pin 40 and a spring 50, The first link 10 is a link structure of the automatic tool changer, characterized in that a key (70) for designating the pressure of the spring (50) is installed. The link structure of an automatic tool changer according to claim 1, wherein the first link (10) is provided with a movable pin (40).