Device for ejecting articles for an injection moulding...

Details Device for ejecting articles for an injection moulding... Device for ejecting articles for an injection moulding...

2001-08-09

2004-01-27

Drodge, Joseph (Department: 1722)

Plastic article or earthenware shaping or treating: apparatus

Female mold and charger to supply fluent stock under...

With product ejector

C425S444000, C425S451600, C425S593000

Reexamination Certificate

active

06682337

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention refers to an ejector device for ejecting moulded articles on injection moulding machines for plastic materials.
FIELD OF THE INVENTION
According to the prior art, injection moulding machines or devices are used in the injection moulding procedure in which resins, consisting of plastic materials, are heated to be brought to a molten state in a heating cylinder and are injected at high pressure into a cavity of a mould so as fill it. The resin in the molten state is cooled inside the mould so as to harden and form the moulded product which can be taken to storage or to subsequent processing stages.
The injection moulding device comprises an injection assembly and a moulding assembly. The injection assembly consists of a cylinder heated externally by means of electrical resistors and containing a plasticization screw. The plasticization screw performs two functions: by means of rotation it conveys and plasticizes the material in the front part of the cylinder; by translating axially it transfers the material, by now in the molten state, from the cylinder into the mould.
In particular the moulding assembly comprises a mould generally consisting of two mould halves mounted respectively on a fixed plate and on a movable plate. In this manner the mould can be opened and closed by advancing or retracting the movable plate. The moulding cavity is defined between the fixed mould half and the movable mould half.
The movable plate of the mould half is moved by a double toggle mechanism which imparts the necessary movements as rapidly as possible and guarantees the closing force of the mould to balance the thrust of the plastic material during injection.
Again in the moulding assembly, there is integrated an ejector device for ejection of moulded articles which provides for ejection thereof when the mould is opened.
Various types of devices for ejection of the articles exist, such as mechanical, hydraulic or pneumatic ejectors or ejector systems based on blowing. On account of their simplicity and versatility, electrical actuating or driving systems are generally preferred for movement of the devices for ejection of moulded articles.
With reference to
FIGS. 1 and 2
, a prior art electric ejector device, designated as a whole by reference numeral
100
, is illustrated schematically.
A mould half
20
has a profile on which a moulded article
21
is formed. The mould half
20
is mounted on a movable mould-holding plate
13
with a substantially rectangular shape. The movable mould-holding plate
13
is supported in translation by means of four guide columns
14
. The guide columns
14
are disposed near the four corners of the movable mould-holding plate
13
and are at right angles thereto. The guide columns
14
are part of the fixed frame of the injection assembly.
The movable mould-holding plate
13
is moved by connecting rods
18
forming part of a double toggle mechanism which is per se known and is therefore not illustrated in greater detail.
The ejector device
100
is situated in the rear part of the movable mould-holding plate
13
, in a central position between the columns
14
and on the inside with respect to the area of connection of the connecting rods
18
of the double toggle mechanism.
The ejector device
100
acts, by means of ejector pins
2
, on an ejector table
1
disposed inside a cavity
51
of the mould half
20
. The ejector table
1
provides rods
52
in register with through holes formed in the mould half
20
. In this manner the translational movement of the table
1
in the cavity
51
causes the rods
52
to advance until they abut against the surface of the moulded article
21
, causing detachment thereof from the profile of the mould half
20
.
The pins
2
are fixed on a movable plate
3
, hereinafter called the movable ejector plate
3
since it is part of the ejector device
100
. The movable ejector plate
3
is supported in translation by means of supporting columns
4
. The supporting columns
14
are fixed at one end thereof to the movable mould-holding plate
13
and at the other end to a supporting plate
9
supported in translation by guide columns
4
of the machine frame. In this manner the supporting plate
9
can move integrally with the movable mould-holding plate
13
.
Movement of the movable ejector plate
3
takes place by means of two ball screws
5
driven by means of an electric motor
10
. The shanks of the ball bearing screws
5
engage inside respective nut screws
6
fixedly mounted in the movable ejector plate
3
. Each ball screw
5
is pivotally supported at its ends by bearings
7
and
8
disposed respectively on the supporting plate
9
and on the movable mould-holding plate
13
.
The electric motor
10
is supported by a base
23
fixed in the rear part of the supporting plate
9
. In this manner the motor
10
moves integrally with the supporting plate
9
during opening and closing of the mould. As shown in
FIG. 2
, the electric motor
10
is disposed between two guide columns
14
and protrudes outward and sideways from the supporting plate
9
.
In the rear part of the supporting plate
9
two idler rollers
11
and two pulleys
12
splined to the ball screws
5
are provided. The electric motor
10
drives a toothed belt
24
that travels on the two idler rollers
11
and engages on the pulleys
12
setting the ball screws
5
in rotation. The motor
10
is controlled by a control or actuator means able to control forward and backward translation of the ejector pins according to a pre-established law of motion, in accordance with the moment in which a moulded article must be ejected from the cavity
21
of the mould half.
The ejector device according to the prior art, described above, has various drawbacks due mainly to its size, which precludes positioning thereof in the space within the guide columns
14
of the moulding assembly construction.
The electrical driving mechanism based on ball screws in fact requires a larger volume of space with respect to that necessary for an oleodynamic system with a similar performance. In particular the electric motor capable of developing, by means of the ball bearing screws, the necessary thrusts for ejection of articles in medium-sized machines, proves to have a size that is not compatible with the other parts of the ejector device.
Moreover the ejector device
100
has drawbacks due to the fact that the drive system for the ball screws is related to the use of toothed belts which require continual adjustments to ensure a correct transmission of torque.
SUMMARY OF THE INVENTION
The object of the present invention is to eliminate the drawbacks of the prior art, providing a device for ejection of moulded articles that ensures optimal performance and at the same time is practical, versatile, economical and simple to make.
An article ejector device for ejecting articles, for injection moulding machines for plastic materials according to the invention has a movable ejector plate connected to a pin that acts on an ejector table disposed inside a cavity of a mould half supported by a movable mould-holding plate. The movable ejector plate is driven by a lever mechanism comprising at least one lever having its resistance arm hinged to the movable plate, its power arm hinged to driving means and a fulcrum pivoted in at least one connecting rod of a double toggle mechanism for movement of the movable mould-holding plate.
The driving means for the lever mechanism preferably comprises an electric motor in direct drive on a screw which engages a nut screw on which the power arm of the levers is hinged. Said drive or actuation system for the ejector device according to the invention proves extremely advantageous. In fact the electric motor can be positioned in the area beneath the plane of translation of the movable mould half. Exploitation of this area for positioning of the motor proves very advantageous because said area is free from moving parts, is readily accessible to the user and is inside the space conventionally occupied by the mach

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