Product Name: Injection Molding Machine
Product Type: Hydraulic/ Electric/ Hybrid
Capacity: Varies from 50 to 5000 tons
Material Compatibility: Plastic, Rubber, Metal
Injection System: Single/ Multi-stage
Clamping Force: Varies from 50 to 5000 tons
Injection Rate: 100g-10kg/s
Mold Opening Stroke: Varies from 200 to 2000mm
Max Daylight: Varies from 500 to 4000mm
Platen Size: Varies from 400x400mm to 5000x5000mm
Control System: PLC or computer-controlled
Power Supply: 3-phase AC 380V/50Hz
Cooling Method: Water/oil cooling
Injection Pressure: Varies from 30 to 300MPa
Max Temperature: Varies from 150 to 400℃
Application: Manufacturing various plastic, rubber, and metal products such as automotive parts, household appliances, and electronic components.
Plastic Processed: | PP, PC | Condition: | New |
Style: | VERTICAL | Ejector Stroke(mm): | 648 mm . |
Ejector Force(kN): | 108kN | Theoretical Shot Volume(cm2): | 335 cm³ |
Injection Rate (g/S): | 133 g/s | Machine Type: | Hydraulic |
Injection Weight (9): | 180 g | Screw diameter (mm): | 624 mm |
Distance between Tie Bars: | 900*405 | Weight (KG): | 302 kg |
Type: | Tube Head Injection | Place of Origin: | Guangdong, China |
Open Stroke(mm): | 172 mm | Model Number: | HM105-25 |
Brand Name: | HOMMAR | Power (kW): | 371 KW |
Warranty: | 2 years | Key Selling Points: | Automatic |
Applicable Industries: | Manufacturing Plant | Showroom Location: | None |
Marketing Type: | Other | Machinery Test Report: | Provided |
Video outgoing-inspection: | Provided | Warranty of core components: | 1 Year |
Core Components: | Bearing, Motor, Other | Plastic Type: | Thermoplastic |
After Warranty Service: | Field maintenance and repair service . | Keyword: | ness carbon handlebar Injection machinery |
Molds: | 3sets | Oil Tank Capacity: | 383L |
Product name: | Injection machinery |
1.What are the types of defects that can be detected in the injection molding process?
1
Flash: This is a defect caused by excess material that is forced out of the mold during the injection molding process
2
Short Shot: This is a defect caused by the injection of insufficient material into the mold
3
Warpage: This is a defect caused by uneven cooling of the plastic parts, resulting in uneven shrinkage and distortion
4
Sink Marks: This is a defect caused by the uneven cooling of the plastic parts, resulting in a depression in the surface of the part
5
Weld Lines: This is a defect caused by the joining of two streams of molten plastic during the injection molding process
6
Voids: This is a defect caused by air pockets trapped in the plastic part during the injection molding process
7
Burn Marks: This is a defect caused by the overheating of the plastic material during the injection molding process
2.How has the use of robotics improved the efficiency of ferromatik milacron injection moulding machine manuals?
The use of robotics in injection molding machines has improved efficiency in a number of ways
Robotics can be used to automate the loading and unloading of parts from the injection molding machine, reducing the need for manual labor
Robotics can also be used to monitor the injection molding process, allowing for faster and more accurate adjustments to be made to the machine
Additionally, robotics can be used to automate the inspection of parts, reducing the need for manual inspection and allowing for faster production
Finally, robotics can be used to automate the cleaning and maintenance of the injection molding machine, reducing downtime and increasing efficiency
3.What safety features should be included in an ferromatik milacron injection moulding machine manual?
We continue to improve ferromatik milacron injection moulding machine manual products and processes to improve efficiency
1
Emergency stop button
2
Interlocks to prevent access to the moving parts
3
Safety guards to protect operators from moving parts
4
Pressure relief valves to prevent over-pressurization
5
Temperature control systems to prevent overheating
6
Automatic shut-off systems to prevent over-injection
7
Anti-tie-down systems to prevent accidental activation
8
Automatic lubrication systems to reduce wear and tear
9
Light curtains to protect operators from moving parts
10
Proximity sensors to detect the presence of personnel
4.How does an ferromatik milacron injection moulding machine manual compare to other types of molding machines?
As one of the ferromatik milacron injection moulding machine manual market leaders, we are known for innovation and reliability
Injection molding machines are the most commonly used type of molding machine
They are used to create plastic parts by injecting molten plastic into a mold
Injection molding machines are highly automated and can produce parts quickly and accurately
They are also capable of producing parts with complex geometries and intricate details
Compared to other types of molding machines, injection molding machines are more expensive and require more setup time, but they are capable of producing higher quality parts with greater precision
5.What are some real-world applications of products produced by ferromatik milacron injection moulding machine manuals?
We maintain a stable growth through reasonable capital operations, focus on industry development trends and cutting -edge technologies, and focus on product quality and safety performance
1
Automotive parts such as bumpers, dashboards, and door panels
2
Electronic components such as connectors, switches, and housings
3
Medical devices such as syringes, catheters, and hearing aids
4
Toys such as action figures, dolls, and building blocks
5
Household items such as toothbrushes, kitchen utensils, and storage containers
6
Industrial components such as gears, valves, and fasteners
7
Packaging materials such as caps, lids, and containers
6.How are these defects identified and corrected?
We pay attention to user experience and product quality, and provide the best product quality and lowest production cost for cooperative customers
Defects can be identified and corrected in a variety of ways
Depending on the type of defect, the most common methods include:
1
Manual Testing: Manual testing involves a tester manually running through the application and looking for any errors or bugs
This can be done by running through the application step-by-step, or by using automated testing tools
2
Automated Testing: Automated testing involves using software to automatically run through the application and look for any errors or bugs
This can be done by using a variety of tools, such as unit tests, integration tests, and regression tests
3
Debugging: Debugging involves using a debugger to identify and fix any errors or bugs in the code
This can be done by using a variety of tools, such as a debugger, a profiler, or a code analyzer
4
Code Reviews: Code reviews involve having a team of developers review the code to identify any errors or bugs
This can be done by using a variety of tools, such as static code analysis, peer reviews, and code reviews
5
Root Cause Analysis: Root cause analysis involves identifying the root cause of the defect and then fixing it
This can be done by using a variety of tools, such as fault tree analysis, cause and effect diagrams, and failure mode and effects analysis
7.About the development history of ferromatik milacron injection moulding machine manual factory
Injection molding machine factory has a long history of development
The first injection molding machine was invented in 1872 by John Wesley Hyatt, an American inventor
He developed the first injection molding machine to produce celluloid billiard balls
In the 1930s, the first fully automatic injection molding machine was developed by James Watson Hendry of the United Kingdom
This machine was capable of producing plastic parts with complex shapes
In the 1950s, the first commercially successful injection molding machine was developed by the German company Krauss-Maffei
This machine was capable of producing parts with complex shapes and high precision
In the 1960s, the first all-electric injection molding machine was developed by the Japanese company Toshiba
This machine was capable of producing parts with high precision and repeatability
In the 1970s, the first microprocessor-controlled injection molding machine was developed by the American company Cincinnati Milacron
This machine was capable of producing parts with high precision and repeatability
In the 1980s, the first two-platen injection molding machine was developed by the German company Demag
This machine was capable of producing parts with complex shapes and high precision
In the 1990s, the first servo-driven injection molding machine was developed by the Japanese company Nissei
This machine was capable of producing parts with high precision and repeatability
In the 2000s, the first multi-component injection molding machine was developed by the German company Arburg
This machine was capable of producing parts with complex shapes and high precision
8.About ferromatik milacron injection moulding machine manual R&D capabilities
Injection molding machine R&D capabilities refer to the ability of a company to research, develop, and manufacture injection molding machines
This includes the ability to design and build custom injection molding machines, as well as the ability to develop and implement new technologies and processes
Companies with strong R&D capabilities are able to stay ahead of the competition and provide their customers with the most advanced injection molding machines available
9.What is the role of the ferromatik milacron injection moulding machine manual operator?
We should have a stable supply chain and logistics capabilities, and provide customers with high -quality, low -priced ferromatik milacron injection moulding machine manual products
The injection molding machine operator is responsible for setting up, operating, and maintaining the injection molding machine
This includes monitoring the machine's performance, making necessary adjustments, and troubleshooting any issues that may arise
The operator is also responsible for ensuring that the product meets quality standards and is produced in a timely manner
10.What kind of maintenance is required for an ferromatik milacron injection moulding machine manual?
We pay attention to employee development and benefits, and provide a good working environment in order to improve the efficiency of employees and improve the quality management of ferromatik milacron injection moulding machine manual products
Maintenance for an injection molding machine typically includes regular cleaning and lubrication of the machine, checking and replacing worn parts, and inspecting the machine for any signs of wear or damage
Additionally, the machine should be inspected for any potential safety hazards, and any necessary repairs should be made
11.About ferromatik milacron injection moulding machine manual warranty
Injection molding machine warranty is a guarantee that the machine will perform as expected for a certain period of time
The warranty period typically ranges from one to three years, depending on the manufacturer and model
The warranty covers any defects in materials or workmanship that may arise during the warranty period
It also covers any repairs or replacements that may be necessary due to normal wear and tear
12.How do temperature and humidity affect the operation of an ferromatik milacron injection moulding machine manual?
Our ferromatik milacron injection moulding machine manual products have competitive and differentiated advantages, and actively promote digital transformation and innovation
Temperature and humidity can have a significant effect on the operation of an injection molding machine
High temperatures can cause the plastic to melt too quickly, resulting in poor quality parts
High humidity can cause the plastic to absorb moisture, which can cause the plastic to become brittle and crack
Low temperatures can cause the plastic to cool too quickly, resulting in poor part quality
Low humidity can cause the plastic to become too dry, resulting in poor part quality
13.About ferromatik milacron injection moulding machine manual production skills training
Injection molding machine production skills training is a comprehensive program designed to teach participants the fundamentals of injection molding machine production
The program covers topics such as machine setup, troubleshooting, safety, and maintenance
Participants will learn how to operate and maintain injection molding machines, as well as how to troubleshoot and diagnose common problems
The program also covers topics such as material selection, mold design, and process optimization
Upon completion of the program, participants will have the knowledge and skills necessary to produce quality parts with injection molding machines
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