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): | 651 mm . |
Ejector Force(kN): | 133kN | Theoretical Shot Volume(cm2): | 332 cm³ |
Injection Rate (g/S): | 112 g/s | Machine Type: | Hydraulic |
Injection Weight (9): | 180 g | Screw diameter (mm): | 659 mm |
Distance between Tie Bars: | 900*405 | Weight (KG): | 399 kg |
Type: | Tube Head Injection | Place of Origin: | Guangdong, China |
Open Stroke(mm): | 172 mm | Model Number: | HM105-25 |
Brand Name: | HOMMAR | Power (kW): | 365 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: | 8sets | Oil Tank Capacity: | 340L |
Product name: | Injection machinery |
1.Are there any environmental concerns with using an high precision injection molding machine?
We attach importance to the innovation ability and team spirit of employees, have advanced R & D facilities and laboratories, and have a good quality management system
Yes, there are environmental concerns with using an injection molding machine
These include the release of volatile organic compounds (VOCs) into the air, the release of hazardous chemicals into the environment, and the potential for the release of plastic particles into the environment
Additionally, injection molding machines require a large amount of energy to operate, which can contribute to air pollution
2.What are the common defects that can occur in the injection molding process?
We have broad development space in domestic and foreign markets
high precision injection molding machine have great advantages in terms of price, quality, and delivery date
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Short Shots: This occurs when the molten plastic does not completely fill the mold cavity
2
Flash: This occurs when molten plastic escapes from the mold and creates a thin layer of plastic along the parting line of the mold
3
Warpage: This occurs when the plastic cools unevenly and causes the part to warp
4
Sink Marks: This occurs when the plastic cools too quickly and causes the surface of the part to sink in
5
Burn Marks: This occurs when the plastic is exposed to too much heat and causes the surface of the part to become discolored
6
Voids: This occurs when air bubbles become trapped in the plastic and create a void in the part
7
Weld Lines: This occurs when two streams of molten plastic meet and create a visible line on the surface of the part
3.Can an high precision injection molding machine be used for large and small scale production?
Our mission is to provide customers with the best solutions for high precision injection molding machine
Yes, an injection molding machine can be used for both large and small scale production
Injection molding machines are capable of producing parts in a wide range of sizes, from very small to very large
The size of the part being produced is determined by the size of the mold used in the injection molding machine
4.Can an high precision injection molding machine be used for rapid prototyping?
No, an injection molding machine is not suitable for rapid prototyping
Rapid prototyping is a process that uses 3D printing technology to quickly create a physical model of a design
Injection molding machines are used to mass-produce parts from thermoplastic and thermoset materials
5.How is the user experience of operating an high precision injection molding machine being improved?
The user experience of operating an injection molding machine is being improved in a variety of ways
Automation and digitalization are being used to streamline the process and reduce the amount of manual labor required
Automated systems can be used to monitor and adjust the machine’s settings, as well as to detect and alert operators to any potential problems
Additionally, user-friendly interfaces are being developed to make the process easier to understand and operate
Finally, virtual reality and augmented reality are being used to provide operators with a more immersive experience, allowing them to better understand the process and make more informed decisions
6.What is the typical lifespan of an high precision injection molding machine?
We adhere to the principle of integrity and transparency, and establish long -term relationships with partners, and we attach great importance to this detail
The typical lifespan of an injection molding machine is around 10-15 years, depending on the type of machine and how well it is maintained
7.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
8.How does the initial cost of an high precision injection molding machine compare to its long-term operating costs?
The initial cost of an injection molding machine is typically higher than its long-term operating costs
The initial cost of the machine includes the purchase price, installation, and setup costs
The long-term operating costs include the cost of electricity, maintenance, and repairs
In general, the long-term operating costs are lower than the initial cost of the machine
9.Can an high precision injection molding machine produce intricate and detailed designs?
We are committed to providing personalized solutions and established long -term strategic cooperative relationships with customers
Yes, an injection molding machine can produce intricate and detailed designs
Injection molding machines are capable of producing complex shapes with high precision and accuracy
They can also be used to produce parts with intricate details, such as textured surfaces, thin walls, and complex geometries
10.What are some safety regulations and standards that high precision injection molding machines must adhere to?
We have a professional team that is committed to the innovation and development of high precision injection molding machine
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All injection molding machines must be equipped with safety guards to protect operators from moving parts
2
All injection molding machines must be equipped with emergency stop buttons to shut down the machine in the event of an emergency
3
All injection molding machines must be equipped with a safety interlock system to prevent the machine from operating if any of the safety guards are not in place
4
All injection molding machines must be equipped with a pressure relief valve to prevent the machine from over-pressurizing
5
All injection molding machines must be equipped with a temperature control system to prevent the machine from overheating
6
All injection molding machines must be equipped with a ventilation system to ensure proper air circulation and reduce the risk of fire
7
All injection molding machines must be inspected and tested regularly to ensure they are in proper working order
8
All injection molding machines must be operated in accordance with the manufacturer’s instructions and safety guidelines
11.How important is cooling time in the injection molding process?
We have flexible production capacity
Whether you are large orders or small orders, you can produce and release goods in a timely manner to meet customer needs
Cooling time is a critical factor in the injection molding process
It is the time required for the plastic to cool and solidify in the mold
If the cooling time is too short, the plastic may not solidify properly and the part may be weak or have poor surface finish
If the cooling time is too long, the plastic may become brittle and the part may warp or shrink
Proper cooling time is essential for producing high-quality parts
12.Can an high precision injection molding machine run 24/7?
We focus on innovation and continuous improvement to maintain a competitive advantage
Yes, an injection molding machine can run 24/7
However, it is important to note that the machine should be properly maintained and monitored to ensure that it is running safely and efficiently
13.What safety features should be included in an high precision injection molding machine?
We continue to improve high precision injection molding machine 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
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Light curtains to protect operators from moving parts
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Proximity sensors to detect the presence of personnel
14.How has technology improved the features and capabilities of modern high precision injection molding machines?
I have a comprehensive after -sales service system, which can pay attention to market trends in time and adjust our strategy in a timely manner
Technology has improved the features and capabilities of modern injection molding machines in a variety of ways
For example, modern machines are now equipped with advanced computer controls that allow for more precise and efficient operation
Additionally, modern machines are now capable of producing parts with complex geometries and intricate details that were not possible with older machines
Furthermore, modern machines are now able to produce parts with higher levels of accuracy and repeatability, as well as faster cycle times
Finally, modern machines are now able to use a variety of materials, including plastics, metals, and composites, allowing for greater flexibility in the production of parts
15.What are the temperature and pressure settings for different materials in an high precision injection molding machine?
We have a first -class management team, and we pay attention to teamwork to achieve common goals
The temperature and pressure settings for different materials in an injection molding machine will vary depending on the type of material being used
Generally, the temperature should be set between 180-220°C (356-428°F) and the pressure should be set between 1,000-2,000 bar (14,500-29,000 psi)
However, it is important to consult the material manufacturer's instructions for the exact settings for the specific material being used
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