KR20050119868A - Cam with driver - Google Patents

Abstract

The present invention relates to a driver-integrated cam, a cam upper die which is moved up and down, a cam slider mounted to be slidable according to the lowering of the cam upper die, and protrudingly mounted to the sliding direction of the cam slider to work when sliding the cam slider. A piercing punch for performing a piercing operation on the target panel, and an inclined portion provided to guide the sliding of the cam slider, and a lower die driver for pressing and holding the work target panel when the cam upper die descends.

Description

Driver-integrated cam {CAM WITH DRIVER}

The present invention relates to a driver-integrated cam, and more particularly, a driver-integrated cam that allows the lower-type driver for guiding the sliding of the cam slider to also hold the panel so as to shorten the panel piercing working distance and reduce the size of the cam. It is about.

Generally, as shown in FIG. 1, the mounting hole 1 for adjusting the bumper gap step is performed to easily adjust the gap step with the side outer panel when the vehicle bumper is assembled.

However, the mold for the operation of the mounting hole for adjusting the bumper gap step is performed by the cam 3 to operate the mounting hole 1 in the panel 5, but is far from the panel 5 so that the mounting hole work of the panel is prevented. There is a problem that is not easy.

The present invention has been made to solve the above-described problems, and the lower type driver for guiding the sliding of the cam slider serves as the holding of the panel so that the panel piercing work distance can be shortened so that the size of the cam can be reduced. The object is to provide a driver-integrated cam.

Driver integrated cam of the present invention for achieving the above object, the cam upper die is moved up and down; A cam slider mounted to be slidable as the cam upper die descends; A piercing punch protrudingly mounted toward the sliding direction of the cam slider to perform a piercing operation on the object panel during sliding of the cam slider; And a lower die driver configured to guide sliding of the cam slider, and a lower die driver configured to press and hold the work target panel when the cam upper die descends.

In the present invention, the cam portion protruding in the downward direction; And a first gas spring mounted to the cam slider so that the front end is caught by the locking portion to impart sliding restoring force of the cam slider.

In the present invention, a pair of plates protruding to the upper portion of the lower type driver and provided with a through portion in the longitudinal direction; A protrusion mounted to the cam top to be movable along the through portion of the plate; And a second gas spring mounted to the through part and hooked to the protrusion to impart a movement restoring force to the cam top.

Hereinafter, a driver integrated cam according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the present embodiments are intended to complete the disclosure of the present invention and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you.

2 is a view schematically illustrating a driver integrated cam according to a preferred embodiment of the present invention, FIG. 3 is a perspective view of the driver integrated cam of FIG. 2, and FIG. 4 is a side view of the driver integrated cam of FIG. 2.

As shown in Figures 2 to 4, the driver integrated cam 100 according to the present invention, the cam upper die 10 to be moved up and down, and the cam slider mounted to be slidable as the cam upper die 10 is lowered ( 20 and the piercing punch 30 which protrudes to the sliding direction side of the cam slider 20, and performs a piercing operation to the work target panel 15 at the time of sliding of the cam slider 20, and the sliding of the cam slider 20. FIG. An inclined portion is provided to guide the lower portion, and the lower cam portion 40 is provided to press and hold the work target panel 15 when the upper cam portion 10 descends.

The cam upper die 10 is provided to move upward and downward, and presses the cam slider 20 downward in accordance with the lowering thereof.

The cam slider 20 is mounted to be slidable as the cam upper die 10 descends. That is, it is mounted to be slidable to one side along the inclined portion of the lower mold driver 40 described later. A protruding piercing punch 30 is mounted to the sliding direction side of the cam slider 20. As shown in FIG. 4, a protruding locking portion 11 is provided below the cam upper die 20, and a first gas spring 30 is mounted on the cam slider 20. The tip of the first gas spring 13 is engaged with the engaging portion 11 in accordance with the sliding of the cam slider 20. By the locking operation of the first gas spring 13, when the pressing force of the cam upper die 10 is extinguished, the original position of the cam slider 20 is restored.

The piercing punch 30 is protrudingly mounted to the front side in the sliding direction of the cam slider 20 and moved together when the cam slider 20 is slid to perform a piercing operation on the work target panel 15.

The lower die driver 40 is provided with an inclined portion 41 in an upward direction to contact the cam slider 20 so as to be slidable. An inclined portion is formed in the cam slider 20 to facilitate sliding of the cam slider 20 through the lower die driver 40. The lower surface of the lower die driver 40 is pressed against the work target panel 15. That is, the lower die driver 40 is lowered according to the lowering of the cam upper die 10 to be in contact with the work target panel 15 to hold the work target panel 15. The lower die driver 40 guides the sliding of the cam slider 20 and simultaneously holds the work target panel 15 together. Accordingly, the lower die driver 40 can also be positioned on top of the panel 15, also serving as the holding of the panel 15, thereby allowing the panel driver to be positioned in proximity to the piercing work of the panel. That is, since the lower profile driver is positioned above the panel 15 of the lower mold driver 40, the conventional lower mold driver is positioned outside the panel, so that the distance between the piercing work portion of the lower mold driver and the lower mold driver is far enough to prevent the length of the piercing punch from being formed. .

The upper portion of the lower type driver is mounted with a pair of plates 43 provided with a through portion 41 in the longitudinal direction. The through part 41 of the plate 43 is provided so that the protrusion part 45 formed in the cam top mold 10 is movable. In addition, a second gas spring 47 is mounted to the through part 41. Accordingly, when the cam upper die 10 is lowered, the protrusion 45 presses the second gas spring 47, and when the lowering force of the cam upper die 10 is extinguished, the cam is operated by the operation of the second gas spring 47. It is easy to restore the original position of the upper die (10).

The operation of the driver integrated cam according to the present invention having the above configuration will be described.

First, the cam upper die 10 is lowered.

Next, as the cam upper die 10 descends, the lower die driver 40 comes into contact with the panel 15. With the continuous lowering of this cam upper die 10, the lower die driver 40 holds the panel 15.

Subsequently, when the cam upper die 10 is further lowered, the cam slider 20 slides to one side. Through one side sliding of the cam slider 20, the piercing punch 30 mounted on the cam slider 20 performs a piercing operation on the work target panel 15. The cam slider 20 returns to its original position under the action of the first gas spring 13 when the panel piercing operation is completed. In addition, the cam upper die 10 is lowered while the projection 45 formed on the side of the lower side pressurizes the second gas spring 47, and when the lowering force is eliminated, the cam upper die 10 is easily lifted by the operation of the second gas spring 47. Do it.

Driver integrated cam according to the present invention as described above has the following effects.

The lower type driver which guides the sliding of the cam slider also serves as holding of the panel, thereby improving the seating property of the panel.

In addition, since the lower die driver is not mounted on the lower die and is seated on the panel to serve as holding of the panel, the working distance of the piercing punch is shortened, so that it is not necessary to oversize the cam, thereby reducing the processing cost.

The present invention has been described above with reference to the embodiments shown in the drawings. However, the present invention is not limited thereto, and various modifications or other embodiments falling within the scope equivalent to the present invention are possible by those skilled in the art. Therefore, the true scope of protection of the present invention should be defined by the following claims.

1 is a schematic view of a cam for mounting hole operation for bumper gap step adjustment according to the prior art;

Figure 2 schematically shows a driver integrated cam according to a preferred embodiment of the present invention.

3 is a perspective view of the driver integrated cam of FIG.

4 is a side view of the driver integrated cam of FIG. 2.

Claims (3)

Cam upper and lower lifting type; A cam slider mounted to be slidable as the cam upper die descends; A piercing punch protrudingly mounted toward the sliding direction of the cam slider to perform a piercing operation on the object panel during sliding of the cam slider; And And an inclined portion provided to guide sliding of the cam slider, and a lower die driver configured to press and hold the work target panel when the cam upper die is lowered. The method of claim 1, A catching portion protruding downwardly of the cam upper mold; And And a first gas spring mounted to the cam slider to impart a sliding end of the cam slider to the front end of the engaging portion. The method of claim 1, A pair of plates protruding upward from the lower type driver and having a through portion provided in a longitudinal direction; A protrusion mounted to the cam top to be movable along the through portion of the plate; And And a second gas spring mounted to the through part and hooked to the protrusion to impart a movement restoring force to the cam upper die.