|Voltage:||Customed Avaiable||Used For:||Plastic Products|
|Motor:||Servo & Standard & Variable Pump||Keyword:||Energy Saving|
|Warranty:||18 Months||Plastic Type:||Thermoplastic|
plastic moulding machine,
automatic injection moulding machine
1.Some of the important features:
Clamping system: Faster response, steable and high rigidity.
Injection system: Accurate and flexible, lower rejection rate.
Control system: omputer and simple operation,molding data memory system.
Power system: Energy saving, high efficient and precise.
Metal parts: The thickness of our frame, metal plate and wallboard are thicker than other company.
Ceramic heating loop: Uniform heating, better thermal insulation properties so good for production.
Visiable lubrication system: on time clean, avoid cast steel parts abrasion and broken.
Oil treasure: Filter of hydraulic oil, good for pump and valves.
Long working life: Imported spare parts and updated version.
Aftersales service: Professional & timely.
2.Servo Machines Features
3. High energy savings
Under normal operating conditions, compared with conventional
hydraulic injection molding machines, energy savings of 20-80%
can be achieved.
4. Molding stability
Compared with conventional injection molding machines repeatability is greatly improved due to servo motor closed-loop control.
5. Quick response
Featuring a dynamic servo motor with a response time of only 0.05sec
6. Quiet operation
The machine runs at much lower noise levels, particularly in low speed applications.
7. Reliable holding pressure
Compared with traditional hydraulic machine the holding pressure is more stable and does not have limitation.
8. Better oil temperature stabitily
The servo system only delivers hydraulic oil as it is needed for the various functions. This prevents unnecessary generation of heat and substantially reduces oil cooling requirements.
Servo energy-saving system
Using the servo motor oil esectriciyt composite sturcture, high response, low noile and excellent
electricity -saving performance.
|Screw L/D Ration||L/D||22.1||21.6||19.5|
|Space Between Tie Bars||mm||420*420|
|Pump Motor Power||KW||13|
|Oil Tank Capacity||L||230|
A skilled team of design engineers will be able to brainstorm, design, and improve upon a variety of solutions to meet the particular complexities of a specific project. The design team at Creative Mechanisms has combined decades of experience creating elegant solutions to complex problems. Meet some of our team here, here, or here, or visit our Customer Testimonials page to see what previous and current clients have to say about our product design capabilities. We think you’ll be impressed.
After a looks-like, feels-like design has been tested and slated for further production, the mold (or die) needs to be designed for injection mold manufacturing. Molds are commonly made from these types of metals:
Hardened steel: Typically the most expensive material to use for a mold, and generally the longest-lasting (which can drive down price per unit). This makes hardened steel a good material choice for products where multiple hundreds of thousands are to be produced.
Prehardened steel: Does not last as many cycles as hardened steel, and is less expensive to create.
Aluminum: Most commonly used for single cavity "Prototype Tooling" when a relatively low number of parts are needed for testing. Once the injection molded parts from this tool are tested and approved, then a multi cavity steel production tool is produced. It is possible to get many thousands of parts from an aluminum tool but typically it is used for lower quantities.
Beryllium-Copper alloy: Typically used in areas of the mold that need fast heat removal or where shear heat is concentrated.
Contact Person: Rayson