KR20160136765A - Slide core assembly for processing under cut with two angles at a time - Google Patents

Abstract

The present invention relates to a slide core assembly, and particularly, to a slide core assembly for processing undercuts having two different angles, which can simultaneously process undercuts having two different angles with a single slide core by double-bonding blocks connected to a slide core in an inclination direction particularly when the slide movement is limited. Accordingly, the present invention provides a slide core assembly for processing undercuts having two different angles, comprising: a first slide core unit which passes through a base block via the front and rear ends thereof and includes an inclined guide hole at two angles; and a second slide core unit which includes a slide-operating block which slides linearly along the base block and includes an inclined guide groove having two inclination angles from the bottom surface, and a second slide core whose one side end portion slides along the guide hole and whose the other end portion slides while being inserted in the guide hole of the first slide core unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a slide core assembly for simultaneously undercutting two angles,

The present invention relates to a slide core assembly, and more particularly, to a slide core assembly capable of simultaneously processing undercuts having two angles with one slide core by double-joining blocks connected to the slide core in an oblique direction The present invention relates to a slide core assembly for simultaneously undercutting an undercut having two angles.

Generally, a slide core is used to process an undercut during the production of an injection mold. When the angle at which the undercut is to be processed is determined, the slide core is machined by giving an angle to the core- Make a separate slide core for the angle.

On the other hand, a mold apparatus for the inner and outer double undercut processing capable of easily changing the structure without fully replacing the mold apparatus when locally changing the shape of the undercut portion and the double undercut portion formed on the inner and outer sides of the molded product has been developed (See Korean Utility Model Registration No. 0451371).

Wherein the inner and outer double undercut processing mold apparatuses are formed by projecting into a cavity space of upper and lower molds and lower molds forming a cavity space therein, and an inner slide pin is inserted into the cavity together with a spring, And an inner core portion having a first through-hole formed on one side thereof so as to be exposed.

The slide core includes a slide core having an angular pin and an angular ball which are provided in the upper die and horizontally moved on the die under the mold starting from the die. The slide core is inserted into the second hole formed at the other side of the inner core, So that the slide core pin is configured to press the inner slide pin.

And an actuating pin which is provided in a lowered shape so as to face the slide core pin and meshes with an end of the inner slide pin to control retraction movement.

However, although the conventional undercut processing mold apparatus can process double undercuts formed on the inner and outer sides, when the undercut portion has two angles, it is necessary to separately manufacture slide cores corresponding to each angle .

Korean Registered Utility Model No. 0451371 (2010.12.06)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a simple structure in which blocks connected to a second slide core are coupled to each other in an oblique direction in a state where a traveling direction is limited due to a first slide core, A slide core for simultaneous undercut processing of two angles capable of simultaneously processing two different (angular) undercuts different from the first slide core by moving one slide core without making an individual slide core for each undercut angle Assemblies. ≪ / RTI >

In order to achieve the above object, the present invention provides a slide core assembly for simultaneous undercut processing of two angles, comprising: a first slide core unit having guide holes formed at two angles to penetrate the base block forward and backward; A slide block having a guide groove formed at an angle to the bottom surface of the base block and slidably moved along the base block; And a second slide core unit constituting a second slide core which slides while being inserted into the guide hole of the unit.

In this case, the guide groove of the slide operation block is formed with a locking step for narrowing the width in the outward direction, and one end of the second slider core is formed with a step bent toward the inside so as to slide along the locking step .

The slide core assembly for simultaneous undercut processing according to the present invention having the above-described structure according to the present invention has a simple structure in which the blocks connected to the remaining slide cores are double- It is possible to simultaneously process two undercuts (with angles) by moving one slide core without making individual slide cores for each angle.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a partial cross-sectional side view of a slide core assembly for simultaneous undercut processing of two angles according to the present invention;
Figure 2 is a partial front view of a slide core assembly for simultaneous undercut processing of two angles according to the present invention;
Figure 3 is a partial low profile view of a slide core assembly for simultaneous undercut processing of two angles according to the present invention;
4 is an exploded perspective view showing a second slide core unit of a slide core assembly for simultaneous undercut processing of two angles according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present embodiment, the same names are used for the same components, and further description thereof will be omitted.

FIG. 1 is a partial side cross-sectional view showing a slide core assembly for simultaneous undercut processing according to the present invention at two angles, FIG. 2 is a partial low cross-sectional view showing a slide core assembly for simultaneous undercut processing according to the present invention, FIG. 3 is a partial front view showing a slide core assembly for simultaneous undercut processing according to the present invention, FIG. 4 is a cross-sectional view of a second slide core unit of a slide core assembly for simultaneous undercut processing according to the present invention, Fig.

The slide core assembly for simultaneous undercut processing of two angles of the present invention comprises a first slide core unit 100 and a second slide core unit 200, as shown in Figs.

The first slide core unit 100 slides the base block 110 in the forward and backward directions to process the undercut. The first slide core unit 100 penetrates the base block 110 in the forward and backward directions to form two angles? 1 and? 2, The guide hole 120 is formed to be inclined and long.

For the sake of convenience, the forward and backward directions are referred to as the forward direction in the left direction and the rear direction in the right direction for the sake of convenience in reference to FIG.

For example, the guide hole 120 may be inclined not only at an angle? 1 in the Y-axis direction (upper direction) with respect to the X-axis, which is forward and backward in FIG. 1, And is inclined at an angle of? 2 to the Z axis direction (left side) with respect to the Y axis as the downward direction.

That is, the guide hole 120 is formed obliquely at an angle of? 1 and an angle of? 2 in the Y-axis and Z-axis directions with respect to the X-axis and the Y-axis, respectively.

The angles of the angles? 1 and? 2 mean inclination (directional) with a certain angle in two directions, and the actual values of the angles? 1 and? 2 can be changed depending on the angle of inclination of the undercut.

The second slide core unit 200 includes a slide operation block 210 and a second slide core 220.

The slide operation block 210 linearly moves (slides) along the base block 110 (along the bottom surface of the base block 110 in FIG. 1) before and after the slide.

The slide operation block 210 corresponds to the guide hole 120 of the first slide core unit 100 (to interlock with the guide hole 120 through the second slide core 220) Guide grooves 211 are formed so as to be inclined at two angles (? 3,? 4).

For example, the guide groove 211 may be inclined at an angle of? 3 in the Y-axis direction (lower) with respect to the X-axis, which is the forward and backward directions in FIG. 1, And is inclined at an angle of? 4 to the Z axis direction (left side) with respect to the Y axis which is the downward direction.

That is, the guide groove 211 is formed in an oblique shape inclined at two angles, that is, an angle θ3 and an angle θ4 in the Y-axis and Z-axis directions with respect to the X-axis and the Y-axis, respectively.

The actual values of the angles? 3 and? 4 correspond to the inclination angles of the guide holes 120, and the angles of the angles? 3 and? can be changed.

The second slide core 220 is slid in two angles? 3 and? 4 along the guide groove 211 in a state where one end of the bar is inserted into the guide groove 211 of the slide operation block 210 (Sliding movement).

The second slide core 220 slides (slides) at two angles? 1 and? 2 in a state where the other end of the second slide core 220 is inserted into the guide hole 120 of the first slide core unit 100 .

That is, one end of the second slide core 220 moves along the guide groove 211 while the other end of the second slide core 220 moves along the guide hole 120 (movement of both end portions simultaneously cooperate).

In this case, the guide groove 211 of the slide operation block 210 is formed with a latching protrusion 212 which is narrowed in the outer (opened) direction, and at one end of the second slider core 220, A step 221 is formed which is bent toward the inside so as to slide (slide) along the latching jaw 212 by being caught by the latching jaw 212.

The slide core assembly for simultaneous undercut processing of two angles according to the present invention will now be described. First, one end of the second slider core 220 is inserted into the guide groove 211 of the slide operation block 210 Insert it at an angle.

At this time, the step 221 formed at one end of the second slider core 220 is brought into close contact with the latching protrusion 212 of the slide block 210 so as not to be easily detached from the outside.

The other end of the second slider core 220 is inserted into the guide hole 120 of the base block 110 and the slide operation block 210 is brought into close contact with the bottom surface of the base block 110.

When the slide operation block 210 is slid forward (slidably moved) with respect to the base block 110, one end of the second slide core 220 is inserted into the guide groove 211 of the slide operation block 210 Not only slide at two angles (directions) but also slide at two different angles (directions) along the guide holes 120 of the first slide core unit 100 at the other end.

The second slide core (100) is slid at two angles along the guide hole (120) only by linear driving of the slide operation block (210) in a state in which the slide direction is limited due to the advancing direction of the first slide core unit 220 are exposed to the outside through the base block 110 to process two kinds of undercuts (at an angle) at a time.

Although the present invention has been described as a slide core assembly for simultaneous treatment of undercuts at two angles for ease of understanding with respect to the second slide core 220 in the name, one undercut process can be performed by the first slide core unit 100 (Angular) undercut processing different from the undercut direction can be performed by the second slide core 220. Therefore, the entire assembly can be arbitrarily added to two or more (three, four, etc. depending on the design change) ) Means that undercut processing is possible.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is self-evident to those who have.

Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100 ... First slide core unit 110 ... Base block
120 ... Guide hole 200 ... Second slide core unit
210 ... slide operation block 211 ... guide groove
212 ... engaging chin 220 ... second slide core
221 ... step

Claims (2)

A first slide core unit having a guide hole penetrating the base block forward and backward and inclined at two angles; And
A slide operation block slidably moving along the base block and having guide grooves inclined at two angles from the bottom;
A second slide core unit constituted by a second slide core, one end of which slides along the guide groove of the slide operation block and the other end of which is inserted into the guide hole of the first slide core unit;
Wherein the at least one of the at least two of the at least two of the at least two of the at least two of the at least two of the at least two of the at least two of the at least two of the at least two sub- The method according to claim 1,
A guide groove of the slide operation block is formed with a locking step for narrowing the width in the outward direction and a step is formed at one end of the second slider core and bent toward the inside so as to slide along the locking step. For simultaneous undercutting of two angles.

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