DE2742187A1 - Injection-casting or injection-moulding tool - for mfr. of massive, rotation-symmetric mouldings with frontal inserts - Google Patents

Abstract

Injection-casting or injection-moulding tool used in mfr. of rotation-symmetric, massive, mouldings with inserts arranged in their frontal surfaces, has a gate at the circumference of one of the frontal faces of the mould cavity. The gate is designed as an annular segment. Used e.g. in the mfr. of electrical components from fibre-filled plastics. The mouldings are homogeneous without undesirable voids, and hence of superior mechanical and dielectric strength.

Description

Injection molding and injection molding machines

The invention relates to an injection molding or transfer molding tool for the production of solid molded bodies with rotationally symmetrical geometry.

For injection molding or transfer molding there are tools with the most varied Known sprue techniques.

The plasticized one fed to the mold via a gate Molding material passes through a channel, the sprue, or in the case of multiple tools or large-area tools via a channel system, referred to as a sprue system, in the mold cavity, in which the molding material corresponds to a solid body Shaping hardens. The sprue is with the mold cavity via a gate, which is often referred to as a sprue or connection, connected.

The gate is a short channel constriction that goes into the mold cavity opens and in particular an easy and clean separation of the solidified molded material body of which should enable the sprue. This means that the gate should be as small as possible must be so that no major marks occur on the molded material body through time-consuming and costly rework would have to be fixed.

The reduction in cross-section of the gate is, however, due to the to processed molding material and the molded body to be produced limited.

The shape and position of the gate is designed differently. she determines the mold filling process and thus whether a mold is well vented may or may not. Of these, in turn, are the electrical and mechanical strengths of the molded body dependent.

If the I # t has no way of escaping, it becomes the highest Place or at confluence lines compacted, which is due to the heat of compression to burns on the sprue.

When injecting rotationally symmetrical bodies with axially to the Insert parts arranged on the front sides are generally cast on the front side next to one of the single parts. The bleed is mostly a so-called point bleed formed, this gate has the liachteils that contained in the molding material Fibers are inhomogeneously distributed in the injection molded body and air pockets in the molding material can only be avoided through greater technical effort. In addition comes that with the put gate the throughput rate per unit of time is too low.

It is known to have one insert or several on both sides Make a sprue. For bodies whose gate over several gates takes place, weld lines arise in the molding material, which affect the electrical and mechanical Reduce the strength of the molded body. It is also known on the shell side to arrange a so-called film cut. The one at this gate on the molding remaining cut seam has a negative effect on electrical stress the end.

Furthermore, with an arrangement of n> 2 mold cavities in one Mold the arrangement of the sprues unfavorable.

In the case of ring-shaped or sleeve-shaped parts, there is an end-face ring gate well proven. In the case of solid cylindrical parts, this is usually not used, because during injection molding or transfer molding, the mold cavity is coaxial from the outside fills inwards and thereby the ventilation via the mold parting plane, the evaluation pins or special evacuation channels become ineffective.

The remaining air becomes coaxial with the flowing molding compound surrounded and more and more compressed. Even if some of the air still escapes can, the compressed residual air content causes a reduction in quality in terms of quality on the mechanical and especially electrical dielectric strength in the area the main axis of the cylindrical shaped body.

It is known to avoid air inclusions in the molding material to create a vacuum in the mold cavity, however the vacuum is usually not sufficient to avoid air inclusions entirely.

The aim of the invention is the electrical and mechanical strength of rotationally symmetrical molded bodies and to increase the throughput of the To enlarge molding material per unit of time.

The invention is based on the object, the gate for a massive rotationally symmetrical molded body with arranged on the end faces To design inserts so that inhomogeneities and air inclusions in the with Fibers filled molding material of the molding material are largely avoided and the filling process is designed to be favorable.

According to the invention the object is achieved in that a on one The face of the factory cavity is formed as a ring segment and is arranged on the outer periphery. The ring segment is 1/4 to 1/3 of the Total scope. This ensures that the mold cavity is filled in segments and the air present in the tool up to the last phase of the filling process can be extracted by a vacuum pump or

The sprue channel is pressed out by the molding compound flowing in for the ring segment gate is preferably symmetrical to the plant division plane.

The invention is to be described in more detail below using an exemplary embodiment 1S shows an injection molding tool in the accompanying drawing in the parting plane, FIG. 2f a section A-A according to FIG. 1.

The injection molding tool shown in the figures is for manufacture massive elongated rotationally symmetrical molded body made of thermosetting molded materials certainly.

The injection molding tool consists of the tool halves 1; 1 '. The runner 3 lies syneletrically to the mold parting plane and opens into the front side of the mold cavity arranged gate 4.

According to the invention, the gate 4 is designed as a ring segment and extends over 1/3 to 1/4 of the circumference of the end face of the mold cavity and opens into the mold cavity 2 via a sprue bar. The insert 6 is axially arranged. During injection, the molded body builds up from the opposite one Side opposite the injection side on and from left to right accordingly the embodiment in Fig. lo This allows up to the last phase of the filling process the air is pressed out of the mold cavity or effectively through a vacuum pump be sucked off. This makes them largely homogeneous and free of air inclusions Molded body produced.

As shown in Fig. 1, the air is via the evacuation duct 5 sucked off.

Claims (2)

Claims: 1. Injection molding or transfer molding tool for production of solid molded bodies with rotationally symmetrical geometry and on the face arranged single parts with one on the circumference of an end face of the tool cavity angeordtleten gate, characterized in that the gate as a ring segment is trained. 2. Injection molding or transfer molding tool according to claim 1, gekennzeiclinet in that the ring segment is 1/3 to 1/4 of the frontal circumference.