KR20150143126A - Injection moding apparatus for cutting side gate automaticaaly and ejecting molding goods - Google Patents

Abstract

Disclosed is an injection molding apparatus for automatically cutting a side gate and ejecting a molded product. The injection molding apparatus comprises: a side gate cutting unit for cutting a side gate integrally attached to a molded product by being hit with respect to primary elevation of an ejector road and being elastically elevated; and a molded product ejection unit for ejecting the molded product by being fixated with one end to an ejector plate and being elevated with respect to secondary elevation of the ejector road.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an injection molding apparatus for automatically cutting a side gate and taking out a molded article,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an injection mold apparatus, and more particularly to an injection mold apparatus in which a side gate is automatically cut and a continuous injection mold is taken out when a mold is opened.

In general, injection molding is one of the most widely used manufacturing methods for molding plastic products, in which a resin molten in a heating cylinder is injected into a cavity of a closed mold at a high pressure for solidification or curing, As a method of making a molding, such injection molding is molded inside the injection mold.

A typical injection mold apparatus is formed of a material such as a metal having excellent heat resistance. The mold has a cavity formed in a shape corresponding to the injection mold to be manufactured, a sprue into which the molten resin is injected, and a molten resin injected through the sprue into the cavity And a side gate which is formed so as to have a relatively small cross sectional area as compared with the runner and controls the flow of the molten resin injected into the cavity.

When the molten resin is injected into the injection mold apparatus configured as described above, the molten resin is filled into the cavity through the sprue, the runner and the side gate, and solidified.

As a result, the side gate 12, the runner 14, and the sprue 16 are attached to the injection mold 10 to take out the solidified injection mold 10 from the injection mold apparatus, And is also taken out together.

At this time, since the side gate 12, the runner 14 and the sprue 16 are attached as one body, it is necessary to remove at least the side gate 12 from the injection-molded article 10, , Which increases the working time and the workload and increases the manufacturing cost.

Further, when the side gate is manually cut and removed, there is a problem that the cut surface is not clean and a burr is formed.

In order to solve such a problem, Korean Patent Registration No. 1037482 discloses an injection mold machine including a lower core pin which is operated by a restoring force to a spring, and a lower core punch which cuts a side gate in connection with the lower core pin.

However, according to the above patent, since the state in which the lower core pin pressed by the upper core pin fixed to the fixed side mold plate presses the spring is repeated, the restoring force of the spring is decreased with time, The cutting force of the side gate due to the restoring force of the spring is reduced. As a result, the side gate can not be precisely cut due to repeated use, resulting in a problem that the cutting surface is not clean and burrs are formed.

In addition, according to the above patent, even if the side gate is cut off, since the injection molded product must be taken out manually from the cavity, there is a problem that the operation speed is slow and the production yield is deteriorated as a result.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide an injection mold apparatus capable of always cutting a cut surface of a side gate in a repeated use.

Another object of the present invention is to provide an injection mold apparatus capable of improving the production yield by automatically cutting off side gates and taking out injection molds.

The above-described object is achieved by a structure in which a lower mold unit and an upper mold unit are detachably coupled, and the lower mold unit is constituted by a movable side mounting plate, a spacer block and a movable side mold plate coupled to each other, A pair of ejector plates which are vertically stacked on the movable side mounting plate, and a pair of ejector plates which are vertically stacked on the movable side mounting plate, And a space in which a lower cavity formed in the movable side mold plate and an upper cavity formed in the fixed side mold plate are combined to form a space for forming a molded product by injection of molten resin, A side gate which elastically rises due to a blow by the rising and cuts the side gate integrally attached to the molded product, Cutting unit; And a molded product take-out unit having one end fixed to the ejector plate and rising according to a second rise of the ejector rod to take out the molded product, characterized in that the molded product take- Lt; / RTI >

Preferably, the side gate cutting unit further comprises: a runner ejector pin that is vertically movably fitted in a through hole formed in each of the pair of ejector plates; And a spring which is fixed in the through hole at one end and fixed at the other end to the runner ejector pin to provide elasticity to the up and down movement of the runner ejector pin, the upper end of the runner ejector pin extends to the molded article, And is pressed by the restoring force of the spring to protrude from the lower surface of the lower ejector plate.

Preferably, the side gate cutting unit further comprises: a runner ejector pin that is vertically movably fitted in a through hole formed in each of the pair of ejector plates; A spring having one end fixed in the through hole and the other end fixed to the runner ejector pin to provide elasticity for the up and down movement of the runner ejector pin; The upper end of the runner ejector pin extends to the molded article and the lower end of the runner pin is pressed by the restoring force of the spring, And protrudes from the lower surface of the ejector plate.

Preferably, the molded product take-out unit is composed of a product ejector pin having a lower end fixed between the ejector plates and an upper end extending to the molded product.

According to the above-described structure, since the runner ejector pin cuts the side gate by the strike caused by the rise of the ejector rod, the runner can be hit with a constant force even in repeated use, so that the cut surface of the side gate can be always cut cleanly.

In addition, the operation of separating the side gate from the molded product and the operation of taking out the molded product from the mold apparatus are automatically and continuously carried out, so that the production yield can be greatly improved.

Fig. 1 shows an injection-molded article taken from a conventional injection mold.
FIG. 2 shows an injection mold apparatus according to an embodiment of the present invention and shows a state before the mold apparatus is opened.
3 shows a state after the injection mold apparatus is opened and the side gate is cut.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 2 shows an injection mold apparatus according to an embodiment of the present invention and shows a state before the mold apparatus is opened.

As is well known, the injection molding apparatus comprises a lower mold unit and an upper mold unit, and the upper mold unit has a structure detachably coupled to the lower mold unit.

First, the lower mold unit will be described. A spacer block 120 is stacked on the lower movable mold mounting plate 110, and a space 122 formed in the spacer block 120 is stacked. And the upper and lower ejector plates 150 and 160 of the first and second ejection openers 150 and 160 are coupled by the bolts 155 to be movable up and down.

A support plate 130 and a movable side mold plate 140 are sequentially stacked on the spacer block 120. A support bolt 170 is disposed on the movable side mounting plate 110, the spacer block 120, the support plate 130, (140) and bind them together.

In addition, as the upper mold unit, the fixed side mold plate 240 and the fixed side mounting plate 210 are stacked, and they are coupled by the bolts 220, and they are removed to open the injection mold apparatus.

A through hole 112 is formed at the center of the movable side mounting plate 110 and the ejector rod 300 is fitted in the through hole 112 so as to be movable up and down.

A through hole 162 is provided in the center of the lower ejector plate 160 in correspondence with the through hole 112 of the movable side mounting plate 110. The through hole 162 is divided into a large diameter portion and a small diameter portion, The latching protrusion 162a is formed at the boundary of the protrusion 162a.

A through hole 152 is provided at the center of the upper ejector plate 150 in correspondence with the through hole 162 of the ejector plate 160. The through hole 152 is also divided into a large diameter portion and a small diameter portion, The engaging protrusion 152a is formed at the boundary of the engaging portion 152a. At the same time, another through hole 154 is formed at a position spaced apart from the through hole 152, so that the product ejector pin 340 is fitted as described later.

The ejection pin 310 is inserted into the through hole 162 of the lower ejector plate 160. The head 312 formed at the upper end of the ejection pin 310 has a large diameter and is inserted into the through hole 162 of the through hole 162 162a.

The large diameter head 332 formed at the lower end of the runner ejector pin 330 is in contact with the head 312 of the ejection pin 310 and moves from the through hole 162 of the ejector plate 160 to the ejector plate 150, Through the through hole 152 of the movable plate 140 and the lower plate 130 and the movable plate 140 and comes into contact with the lower portion of the runner 14. [ Here, the sprue 16 is integrally attached to the runner 14.

Both ends of the spring 320 are held in contact with the engaging step 152a formed in the through hole 152 of the ejector plate 150 and the head 332 of the runner ejector pin 330, (Restoring force), the head 332 of the runner ejector pin 330 is pushed downward to press the striking pin 310 downward.

The ejector pin 330 is integrally formed with the runner ejector pin 330 so that the ejector pin 330 is directly connected to the ejector pin 310. In this embodiment, One end of the spring 310 may be fixed to the engaging step 152a of the through hole 152 and the other end may be fixed to the runner ejector pin 330. In this case,

As described above, the head 342 at the lower end of the product ejector pin 340 is fixed between the ejector plates 150 and 160, and the upper end thereof extends to the molded product 10. When the ejector plates 150 and 160 are moved up and down As shown in FIG.

On the other hand, the movable-side template 140 and the fixed-side template 240 are opposed to each other, and a lower cavity 142 and an upper cavity 242 are formed at the central portions thereof, Thereby providing a space for forming the extrudate 10.

The operation of the injection mold apparatus according to the present invention will now be described with reference to FIGS. 2 and 3. FIG. 1, the injection molded product 10 is integrally formed with the side gate 12, the runner 14, and the sprue 16, and the injection molded product 10 is wound around the side gate 12 ).

First, a molten resin is injected into the space formed by the upper cavity 242 and the lower cavity 142 through the sprue 14, the runner 16, and the side gate 12 using a nozzle (not shown).

When the injection is completed, the fixed side mold plate 240 and the fixed side mounting plate 210 are covered with the bolts 220 to prevent the injection mold device from being opened.

When the injected molten resin is cooled after a lapse of a predetermined time, the fixed side mounting plate 210 and the fixed side mold plate 240 are separated by the injector control so that the injection mold apparatus is opened to take out the injection molded product 10 from the injection mold apparatus .

At this time, under the control of the control unit (not shown), the ejector rod 300 rises and hits the impact pin 310. The striking pin 310 is pressed by the restoring force of the spring 320 and pressed downward so that the head 312 of the striking pin 310 is caught by the striking protrusion 162a, And always protrudes from the lower surface of the plate 160 to a predetermined length, for example, about 5 mm.

When the ejector rod 300 hits the striking pin 310 while being raised for a short time, the striking pin 310 is moved upward by a distance at which the ejector rod 300 is lifted and presses the head 332 of the runner ejector pin 330 do.

As a result, overcoming the elastic force of the spring 320, the runner ejector pin 330 rises in a short time and elastically strikes the runner 14, and the side gate 12 integrally attached to the runner 16 It is easily separated from the injection-molded article 10 by impact due to the impact because it has a small diameter.

When the ejector rod 300 is lifted while being in contact with the ejector plate 160, the ejector pins 340 and 340 are lifted at the same time.

As a result, the upper end of the product ejector pin 340 pushes up the molded product 10 to allow the molded product 10 to be taken out of the lower cavity 142.

As described above, the runner 14 can be hit with a constant force even by repeated use by applying the pressure transmission structure composed of the ejector rod 300, the striking pin 310, and the runner ejector pin 330, Can always be cut cleanly.

In addition, the operation for separating the side gate 12 from the molded product and the operation for taking out the molded product from the mold apparatus are automatically and continuously performed, so that the production yield can be greatly improved.

When the ejector pins 300 are lowered, the ejector plates 150 and 160 are also lowered to return to the initial position. When the head 332 of the runner ejector pin 330 is moved to the initial position The head 310 of the striking pin 310 is caught by the engaging protrusion 162a and is returned to the initial state as described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, the scope of the present invention should not be construed as being limited to the embodiments described above, but should be construed in accordance with the following claims.

110: movable side mounting plate
120: spacer block
130:
140: movable side template
150, 160: upper and lower ejector plates
170: Support bolt
210: Fixed side mounting plate
240: Fixed side template
300: Ejector rod
310: Striking pin
320: spring
330: Runner ejector pin
340: Product ejector pin

Claims (4)

An injection mold apparatus in which a lower mold unit and an upper mold unit are detachably coupled,
Wherein the lower mold unit is constituted by a movable side mounting plate, a spacer block and a movable side mold plate coupled to each other, wherein the upper mold unit is constituted by a fixed side mold plate and a fixed side mounting plate coupled to the movable side mold plate,
A pair of ejector plates stacked one above the other are provided so as to be movable up and down inside the spacer block,
A lower cavity formed in the movable side mold plate and an upper cavity formed in the fixed side mold plate are combined to provide a space in which a molten resin is injected to form a molded product,
A side gate cutting unit that elastically rises due to the first rise of the ejector rod to cut the side gate integrally attached to the molded product; And
And a molded article take-out unit which is fixed to the ejector plate at one end thereof and ascends according to a second rise of the ejector rod to take out the molded article, characterized in that the molded article take-out unit is automatically cut and taken out of the molded article. The method according to claim 1,
Wherein the side gate cutting unit comprises:
A runner ejector pin that is vertically movably fitted in a through hole formed in each of the pair of ejector plates;
And a spring having one end fixed in the through hole and the other end fixed to the runner ejector pin to provide elasticity for the up and down movement of the runner ejector pin,
Wherein the upper end of the runner ejector pin extends to the molding and the lower end is pressed by the restoring force of the spring and protrudes from the lower surface of the lower ejector plate. . The method according to claim 1,
Wherein the side gate cutting unit comprises:
A runner ejector pin that is vertically movably fitted in a through hole formed in each of the pair of ejector plates;
A spring having one end fixed in the through hole and the other end fixed to the runner ejector pin to provide elasticity for the up and down movement of the runner ejector pin; And
And a striking pin provided at a lower portion of the runner ejector pin in the through hole,
Wherein the upper end of the runner ejector pin extends to the molded body and the lower end of the runner pin is pressed by the restoring force of the spring and protrudes from the lower surface of the lower ejector plate. Injection mold device. The method according to claim 1,
Wherein the molded article take-out unit comprises a product ejector pin having a lower end fixed between the ejector plates and an upper end extending to the molded product.

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