The output per day of a shuttle rotomolding machine can vary depending on several factors, including the size and complexity of the parts being produced, the number of molds in operation, the cycle time of the machine, and the efficiency of the production process.
In general, shuttle rotomolding machines are capable of producing a wide range of parts, from small to large, and can achieve varying production rates. The output per day can range from a few dozen parts to several hundred or even thousands of parts, depending on the specific machine and production setup.
To determine the exact output per day for a shuttle rotomolding machine, it is necessary to consider the following factors:
Cycle Time: The cycle time of the machine refers to the time it takes to complete one full rotation of the molds, including loading, heating, cooling, and unloading. The cycle time can vary depending on the size and complexity of the parts, as well as the specific machine design. Shorter cycle times generally result in higher production rates.
Mold Capacity: The number of molds that can be operated simultaneously in the machine also affects the output per day. Machines with multiple mold stations or shuttle systems can accommodate more molds, allowing for higher production rates.
Efficiency and Downtime: The efficiency of the production process, including factors such as mold changeovers, material handling, and maintenance, can impact the overall output per day. Minimizing downtime and optimizing the production workflow can help maximize productivity.
Operator Skill and Experience: The skill and experience of the machine operators can also influence the output per day. Well-trained operators who are familiar with the machine and the production process can help ensure smooth and efficient operations.
It is important to note that the output per day is not solely determined by the machine itself but is also influenced by various external factors, such as the availability of raw materials, quality control requirements, and customer demand.
To determine the specific output per day for a shuttle rotomolding machine in a particular production setup, it is recommended to consult with the machine manufacturer or industry experts who can provide more accurate estimates based on the specific machine capabilities and production requirements.
Technical data sheet:
Model No. | Oven Size(mm) | Machine Dimensions(mm) | Total Power (kw) | Biggest tank made | ||
L | W | H | ||||
SN-1600CS | Ø1600 | 7500 | 3500 | 2600 | 24.7 | 170L |
SN-2000CS | Ø2000 | 9500 | 4500 | 3100 | 24.7 | 1000L |
SN-2500CS | Ø2500 | 12000 | 6000 | 3800 | 31.7 | 2500L |
SN-3000CS | Ø3000 | 13500 | 7000 | 4300 | 31.7 | 4500L |
SN-3500CS | Ø3500 | 15000 | 8000 | 4800 | 39.7 | 7000L |
SN-4000CS | Ø4000 | 17000 | 9000 | 5400 | 47.8 | 10000L |
SN-4500CS | Ø4500 | 18500 | 10000 | 6000 | 51.8 | 14000L |
SN-5000CS | Ø5000 | 20500 | 11000 | 6200 | 52.9 | 20000L |
Machinery type: | Shuttle rotomolding machine |
Heating supply: | Natural gas,liquefied gas,diesel oil |
Temperature control: | DTE Control±2℃ |
Burner system: | Riello RS100 |
Cooling mode: | Fan cooling or water cooling |
Control mode: | Touch screen+PLC(Siemens brand) |
Electric brand: | Schneider,Omron |
Delivery time: | About 60 days after receive the deposit |
Overseas Installation period | It depends on machine size,usually takes 10-20days |
Heating rate: | 3 miniutes from room temperature to 280 degree in oven |
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