Equipped with advanced technology, we ensure precision and quality in every product we deliver to our clients.
Molding Fabric Cutting Machine
Precision Cutting:
Designed to cut materials such as fabrics used in rubber molding with high precision to ensure that the material fits the molds perfectly.
Digital Control Interface:
The control panel includes numeric and functional buttons, indicating that the machine allows programmable settings for cut dimensions and sequences, improving repeatability and accuracy.
Large Work Surface:
The machine features a large cutting table to accommodate wide or long fabric materials, which is essential for cutting layers used in rubber molds or related components.
Manual and Automatic Operation:
The presence of both a manual control knob and a digital display suggests that this machine supports both manual fine-tuning and automated operations for cutting processes.
Vacuum Press Machine
Vacuum Function:
These machines are designed to remove air from the rubber molds during the vulcanization process, preventing air bubbles and defects.
Hydraulic Pressing:
Equipped with powerful hydraulic systems to apply uniform pressure during the molding process, ensuring high-quality rubber products.
Mold Temperature Control:
The machines are capable of controlling mold temperature precisely, which is crucial in rubber vulcanization.
Digital Controls:
The panels shown have digital displays and control buttons to monitor and manage parameters such as temperature, pressure, and vacuum timing.
Rubber Molding Press Machine
Hydraulic Press System:
The machine seems to be equipped with hydraulic presses, which use hydraulic power to apply pressure and mold rubber into the desired shapes.
Molding Plates:
The large square section in the center is likely a mold plate, where the rubber is compressed under high pressure to take the form of the mold.
Control Panel:
On the right side, there are pressure gauges, temperature controls, and other buttons, which help in setting up the molding process by controlling the temperature and pressure during the molding operation.
Application:
Rubber molding presses are used to create various rubber parts, such as gaskets, seals, vibration dampers, and washers, by applying heat and pressure to rubber materials.
Hydraulic Molding Presses Machine
Hydraulic Press System:
These machines utilize hydraulic power to apply significant pressure on molds containing rubber, ensuring proper molding and curing of rubber components.
Multiple Mold Stations:
The machine setup has several stations allowing operators to handle multiple molds at once, which increases production capacity and efficiency in the manufacturing process.
Precise Control Panels:
Each station is equipped with individual control panels for temperature, pressure, and timing, enabling operators to tailor the molding process for different products.
Manual Mold Handling:
The operators are seen manually interacting with the molds, suggesting that while the pressing process is automated, the mold loading and unloading process might be done by hand.
Rubber Sheet Cutting and Trimming Machine
Flat Work Surface:
A metal platform for placing rubber sheets or parts that need to be cut or processed.
Control Panel:
Includes simple controls for starting, stopping, and adjusting the machine’s operations. The control panel has manual input for precise handling.
Side Extension Platform:
Provides additional workspace for handling larger rubber sheets or materials during processing
Safety Features:
Equipped with emergency stop buttons to ensure safe operation when dealing with sharp tools or moving mechanical parts
Rubber Molding Hydraulic Presses Machine
Dual Hydraulic Columns:
This machine features two large hydraulic cylinders, which apply force on the mold below. These columns are vital for ensuring uniform pressure distribution during the molding process.
Control Unit:
The top part shows a control unit with various dials, gauges, and switches. These controls are used to monitor and adjust the pressure and temperature during the molding operation, which is crucial for creating high-quality rubber products.
Mold Area:
Below the control unit, there are mold plates where the rubber materials are inserted. Under high pressure and heat, the rubber is shaped and molded into the desired form.
Potential Usage:
This type of press is widely used for producing rubber sheets, gaskets, seals, or other molded rubber components. The design suggests it’s meant for heavy-duty operations, which could involve large parts or high precision products.
Two-Roll Rubber Mixing Mill
Two Large Rollers:
The machine has two rotating steel rollers, essential for mixing raw rubber materials or refining rubber compounds by pressing and folding them repeatedly.
Emergency Stop Buttons:
Visible red buttons are positioned on both sides of the machine, ensuring safety for the operator in case of emergencies.
Drive System:
A heavy-duty motor and gearbox provide the power necessary to rotate the rollers at controlled speeds for efficient mixing and kneading of rubber compounds.
Scraper Mechanism:
Located below the rollers, this catches excess rubber, ensuring that material does not spill onto the floor.
Rubber Manufacturing Workshop
Workbenches with Tools and Materials:
Multiple workstations are visible, where workers are handling rubber products or components. The setup suggests that these stations are for manual or semi-automated tasks.
Vulcanizing Machines:
These machines are used for molding and curing rubber materials by applying heat and pressure, ensuring the rubber attains its final, durable form.
Well-Lit Environment:
The workshop is equipped with overhead fluorescent lighting to provide clear visibility for precision tasks.
Organized Workspace:
The workstations have materials, gloves, and tools within easy reach, indicating a well-organized process flow for efficient manufacturing.
