Structure and Features of Electric Injection Molding Machine
Today, along with the advance of a
variety of raw materials for plastics, plastic molding machines using those
materials have been developed.
Typical plastic manufacturing equipment
is an injection molding machine.
The development of technologies for the injection
molding machine has made it possible to produce more durable and delicate plastic
goods at a faster pace, leading to a great deal of progress made in many
industries, such as automotive, electrical and electronic, consumer goods,
construction and aerospace.
Early injection molding machines were manually
controlled to mold products. However, recent advances of hydraulic injection
molding machines, hybrid injection molding machines and electric injection
molding machines have contributed to higher productivity by minimizing the time
and energy consumption by human beings.
Electric injection molding machines have
recently been sold in huge volume. Their market share is expected to continue
to increase thanks to their advantages such as energy efficiency, precision and
higher stability.
For this reason, LS Mtron provides a
series of articles on the electric injection molding machine to help its
customers easily understand the machine’s structure and features.
[Contents]
1. Clamping Unit |
2. Injection Unit |
3. Ball Screw |
4. Belt & Pulley |
5. Load Cell |
6. Geared Motor |
1.1 Clamping Part Assembly |
2.1 Injection Part Assembly |
3.1 Concept |
4.1 Concept |
5.1 Concept |
6.1 Concept |
1.2 Mold Height Assembly |
2.2 Charging `Assembly |
3.2 Principles |
4.2 Principles |
5.2 Principles |
6.2 Structure |
1.3 Ejector Parts Assembly |
2.2.1 T-box Part Assembly |
3.3 Features |
4.3 Features |
5.3 Features |
6.3 Inner Structure |
|
2.3 Nozzle Moving Part Assembly |
|
|
|
6.4 Brake |
|
2.3.1 Nozzle Part Assembly |
|
|
|
6.5 Features |
|
2.4 Plasticizing Unit |
|
|
|
|
Features
and Operation Principles of Parts
[Figure 1] Outside View of
Electric Injection Molding Machine
1. Clamping Unit
The
Clamping Unit comprises a Fixing Die, a Clamping Part Assembly of a Moving Die
and a Mold Height Assembly capable of changing Mold Thickness and is designed
to maintain Clamping Force.
The
Tie Bar of an electric injection molding machine is extended when Clamping
Force is applied, and the power generated in the process maintains the Clamping
Force in the mold to prevent resins from leaking.
Importantly, all the four Tie Bars must have the same
extension rate. Even a single Tie Bar which is unbalanced could cause product
defects and damage to the device
[Figure 2] Electric Clamping Unit
1.1 Clamping Part Assembly
The Servo Motor
is driven after molding to convert rotational motion to rectilinear motion by
using the Ball Screw and the Moving Platen moves by a 5-point Toggle Link
System.
[Figure 3] Exploded View of Electric Clamping Part Assembly
1.2 Mold Height Assembly
The Mold Height Assembly consists of a Rear
Platen capable of changing Mold Thickness, Gear-like components and a Geared
Motor, and is automatically adjusted to maintain a designated Clamping Force if
the mold is connected to the platen.
[Figure 4] Exploded
View of Electric Mold Height Assembly
1.3 Ejector Parts Assembly
The Ejector Parts Assembly is designed to work in a
way that the Moving Platen moves backwards when the product molding is
completed and that the Servo Motor and Ball Screw are used to eject the product
[Figure 5] Exploded View of Electric Ejector Parts Assembly
-The next article will be about technologies for an injection unit
edit : plastic handler http://www.ihandler.co.kr