Fryer
THREE SAVING、TWO HIGHS
OIL CAPACITY SAVING
ENERGY SAVING
SPACE SAVING
HIGH HEAT RECOVERY RATE
HIGH HEAT EXCHANGE RATE
- Food Manufacturing, Processing, and Preparation ◎ Baked Goods and Confectionery:Fryers
Overview of Products, Technologies, and Services
The continuous fryer of TSHS adopts exclusive heating technology that can reduce oil consumption effectively. And collocation with a humanized operation interface and multiple safety device alarms to protect the operator safe and extend machine life. In addition, the fryer adopts two-layers conveyor belt design, which allows food to be fully immersed in the oil and cook evenly to make product color uniform. The design of TSHS Frying Machine not only saves space and energy, but also has a CIP self-cleaning system. Which can maintain the hygiene environment that produce the high-quality product.
Product Features
Feature 1 | Tsung Hsing's original patented invention integrates the original external heating chamber into the fryer. Thus the whole production line saves up to 40% of the floor space. |
---|---|
Feature 2 | In Tsung Hsing's unique design, the originally exposed oil tubes are housed inside the machine body to shorten the length of tubing. Reducing the length of the tubes means reducing oil usage. As a result, we can reduce the cooking oil capacity of your equipment by 20% |
Feature 3 | The Reduction in tubing also has another benefit: the number of required pump heads is smaller, and the selected pump is relatively smaller. Thus there is a significant energy consumption saving of 40%. |
Feature 4 | Tsung Hsing does not ignore any waste of energy, and can effectively recover the exhaust heat. The effective heat recovery rate is up to 20%. |
Feature 5 | The unique heat conduction design of the "FRYIN" series fryer can effectively enhance the heat exchange efficiency. The exhaust temperature of the "FRYIN" series fryer is about 400℃. Compared to other brands whose exhaust temperatures are over 600℃, the "FRYIN" series fryer can reduce the temperature of the exhaust emissions by about 200℃, which proves that the heat exchange efficiency is effectively improved. |