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.
Condition | New | Showroom Location | None |
Style | VERTICAL | Warranty of core components | 1 Year |
Injection Rate (g/s) | 118 g/s | Core Components | Bearing, Motor, Pump, Gear |
Machine Type | Hydraulic | Plastic Processed | LSR |
Injection Weight (g) | 490 g | Ejector Stroke(mm) | 103 mm |
Weight (KG) | 846 kg | Ejector Force(kN) | 55 kN |
Place of Origin | China | Theoretical Shot Volume(cm3) | 399 cm3 |
Warranty | 1 Year | Screw Speed (rpm) | 0-261rpm |
Key Selling Points | Injection Molding Machine | Screw diameter (mm) | 53 mm |
Applicable Industries | Hotels, Garment Shops, Building Material Shops, Manufacturing Plant, Machinery Repair Shops, Food & Beverage Factory, Home Use, Retail, Construction works , Energy & Mining, Advertising Company | Distance between Tie Bars | 860x 420mm |
Type | Tube Head Injection | Open Stroke(mm) | 355 mm |
Brand Name | Hommar | Power (kW) | 21.6 kW |
Plastic Type | Thermoplastic | Transport Package | Customer's country |
Voltage | 380V/220/415V | Language | According to customer's country |
Automatic | semi-auto | Nozzle Projecting Template Size | ≥54 |
Machine Color | White and red | After-sales Service Provided | Video technical support |
Certification | CE IS09001 | Distance between Tie Bars | 860x 420mm |
Quantity (sets) | > 1 | Lead time (days) | To be negotiated |
1.What is the typical lifespan of an 3d model 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
2.About 3d model injection molding machine patent
Injection molding machine patents are patents related to the design and operation of injection molding machines
Injection molding machines are used to produce plastic parts for a variety of industries, including automotive, medical, and consumer products
Injection molding machines use a combination of heat, pressure, and a mold to shape molten plastic into a desired shape
Patents related to injection molding machines cover a wide range of topics, including the design of the machine, the operation of the machine, and the materials used in the process
3.What safety features should be included in an 3d model injection molding machine?
We continue to improve 3d model 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
9
Light curtains to protect operators from moving parts
10
Proximity sensors to detect the presence of personnel
4.How are different shapes and sizes achieved in injection molding?
We should enjoy a good reputation in the industry, and we can increase the added value of the products of cooperative customers through technological innovation
Different shapes and sizes are achieved in injection molding by using different types of molds
The molds are designed to create the desired shape and size of the part
The molds can be made from a variety of materials, including aluminum, steel, and plastic
The molds can also be designed to create complex shapes and sizes, such as those with multiple cavities or intricate details
The injection molding process also allows for the use of different types of plastic resins, which can be used to create parts with different colors, textures, and properties
5.How does the quality of the mold affect the final product in injection molding?
We have established long-term and stable partnerships with our suppliers, so we have great advantages in price and cost and quality assurance
The quality of the mold affects the final product in injection molding in several ways
Poorly designed or constructed molds can lead to defects in the finished product, such as warping, cracking, or uneven surfaces
Poorly machined molds can also lead to poor part quality, as the plastic may not fill the mold properly or may not be able to be ejected from the mold
Poorly maintained molds can also lead to poor part quality, as the mold may not be able to maintain its shape or may have worn surfaces that can cause defects in the finished product
6.What are some of the biggest challenges faced in operating an 3d model injection molding machine?
1
Temperature Control: Injection molding machines must be able to maintain a consistent temperature in order to produce quality parts
If the temperature is too low, the plastic may not flow properly and the parts may be weak or brittle
If the temperature is too high, the plastic may become too soft and the parts may be distorted
2
Pressure Control: The pressure of the injection molding machine must be carefully controlled in order to ensure that the plastic is injected into the mold at the correct rate and with the correct amount of force
If the pressure is too low, the plastic may not fill the mold properly and the parts may be weak or distorted
If the pressure is too high, the plastic may be forced out of the mold too quickly and the parts may be deformed
3
Cycle Time: The cycle time of the injection molding machine must be carefully monitored in order to ensure that the parts are produced in a timely manner
If the cycle time is too long, the parts may not be produced in a timely manner and the production process may be delayed
4
Maintenance: Injection molding machines require regular maintenance in order to ensure that they are operating properly and producing quality parts
If the machine is not properly maintained, it may not be able to produce quality parts and the production process may be delayed
7.About 3d model injection molding machine delivery date
Injection molding machine delivery dates vary depending on the complexity of the project and the availability of the machine
Generally, the delivery date for a standard injection molding machine is between 4-6 weeks
However, for more complex projects, the delivery date can be longer
It is important to discuss the delivery date with the injection molding machine supplier before placing an order
8.What is an 3d model injection molding machine?
Being one of the top 3d model injection molding machine manufacturers in China, We attach great importance to this detail
An injection molding machine is a machine that is used to shape plastic or other materials through the process of injection molding This process involves heating the material, injecting it into a mold, and then cooling it so that it takes the shape of the mold
Injection molding machines are used to produce a variety of products, including automotive parts, medical devices, and consumer goods
9.What is the role of computer-aided design (CAD) in injection molding?
We adhere to the principle of quality first and have a complete production quality management system and quality inspection process
Computer-aided design (CAD) plays an important role in injection molding
CAD is used to create 3D models of the parts that will be produced by injection molding
This allows for the design of the injection mold to be optimized for the part, ensuring that the part is produced with the highest quality and accuracy
CAD also allows for the injection mold to be tested virtually before it is produced, ensuring that it will produce the desired parts
10.About the scale of 3d model injection molding machine factory
Injection molding machine factories vary in size and scale
Some factories may only produce a few machines per year, while others may produce hundreds or even thousands of machines per year
The size of the factory will depend on the size of the machines being produced, the number of machines being produced, and the demand for the machines
11.How can the clamping force of an 3d model injection molding machine be calculated?
We have rich industry experience and professional knowledge, and have strong competitiveness in the market
The clamping force of an injection molding machine can be calculated using the following formula:
Clamping Force (kN) = (Mold Cavity Area (cm2) x Cavity Pressure (MPa)) / 1000
Where Mold Cavity Area is the total area of the mold cavity, and Cavity Pressure is the pressure of the molten plastic material inside the mold cavity
12.Can an 3d model injection molding machine produce products with different surface finishes?
We should perform well in market competition, and the prices of 3d model injection molding machine products have a great competitive advantage
Yes, an injection molding machine can produce products with different surface finishes
Depending on the type of injection molding machine, the surface finish can be achieved through a variety of methods, such as painting, plating, polishing, and texturing
13.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
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