TR series refrigerated air dryer | TR-12 | ||||
Max air volume | 500CFM | ||||
Power supply | 220V / 50HZ (Other power can be customized) | ||||
Input power | 3.50HP | ||||
Air pipe connection | RC2” | ||||
Evaporator type | Aluminum alloy plate | ||||
Refrigerant model | R410a | ||||
System max pressure drop | 3.625 PSI | ||||
Display interface | LED dew point display, LED alarm code display, operation status indication | ||||
Intelligent anti-freezing protection | Constant pressure expansion valve and compressor automatic start/stop | ||||
Temperature control | Automatic control of condensing temperature/dew point temperature | ||||
High voltage protection | Temperature sensor | ||||
Low voltage protection | Temperature sensor and inductive intelligent protection | ||||
Weight(kg) | 94 | ||||
Dimensions L × W × H(mm) | 800*610*1030 | ||||
Installation environment: | No sun, no rain, good ventilation, device level hard ground, no dust and fluff |
1. Ambient temperature: 38℃, Max. 42℃ | |||||
2. Inlet temperature: 38℃, Max. 65℃ | |||||
3. Working pressure: 0.7MPa, Max.1.6Mpa | |||||
4. Pressure dew point: 2℃~10℃(Air dew point:-23℃~-17℃) | |||||
5. No sun, no rain, good ventilation, device level hard ground, no dust and fluff |
TR series refrigerated Air dryer |
Model | TR-01 | TR-02 | TR-03 | TR-06 | TR-08 | TR-10 | TR-12 | |
Max. air volume | m3/min | 1.4 | 2.4 | 3.8 | 6.5 | 8.5 | 11 | 13.5 | |
Power supply | 220V/50Hz | ||||||||
Input power | KW | 0.37 | 0.52 | 0.73 | 1.26 | 1.87 | 2.43 | 2.63 | |
Air pipe connection | RC3/4" | RC1" | RC1-1/2" | RC2" | |||||
Evaporator type | Aluminum alloy plate | ||||||||
Refrigerant model | R134a | R410a | |||||||
System Max. pressure drop |
0.025 | ||||||||
Intelligent control and protection | |||||||||
Display interface | LED dew point display, LED alarm code display,operation status indication | ||||||||
Intelligent anti-freezing protection | Constant pressure expansion valve and compressor automatic start/stop | ||||||||
Temperature control | Automatic control of condensing temperature/dew point temperature | ||||||||
High voltage protection | Temperature sensor | ||||||||
Low voltage protection | Temperature sensor and inductive intelligent protection | ||||||||
Energy saving | KG | 34 | 42 | 50 | 63 | 73 | 85 | 94 | |
Dimension | L | 480 | 520 | 640 | 700 | 770 | 770 | 800 | |
W | 380 | 410 | 520 | 540 | 590 | 590 | 610 | ||
H | 665 | 725 | 850 | 950 | 990 | 990 | 1030 |
After startup, the refrigerant is compressed from the original low temperature and low pressure state into high temperature and high pressure vapor.
If it is necessary to use in corrosive gas environment, copper tube dryers or stainless steel heat exchanger dryers should be selected. It should be used at ambient temperature below 40℃.
The inlet of compressed air should not be connected incorrectly. In order to facilitate maintenance, bypass pipes should be set up to ensure maintenance space. To prevent the vibration of the air compressor to the dryer. Piping weight should not be added directly to the dryer.
Drain pipes should not stand up, or be broken or flattened.
The power supply voltage is allowed to fluctuate less than ±10%. Appropriate capacity leakage circuit breaker should be set up. It must be grounded before use.
When the inlet temperature of compressed air is too high, the ambient temperature is too high (above 40℃), the flow rate exceeds the rated air volume, the voltage fluctuation exceeds ±10%, and the ventilation is too poor (ventilation should also be taken in winter, otherwise the room temperature will rise), the protection circuit will play a role, the indicator light is off, and the operation will stop.
When the air pressure is higher than 0.15mpa, the drain port of normally open automatic drainer can be closed. The displacement of the air compressor is too small, the drainage port is in the open state, and air is blown out.
Energy saving:
The aluminum alloy three-in-one heat exchanger design minimizes the process loss of the cooling capacity and improves the recycling of the cooling capacity. Under the same processing capacity, the total input power of this model is reduced by 15-50%
High Efficiency:
The integrated heat exchanger is equipped with guide fins to make the compressed air evenly exchange heat inside, and the built-in steam-water separation device is equipped with a stainless steel filter to make the water separation will be more thoroughly.
Intelligent:
Multi-channel temperature and pressure monitoring, real-time display of dew point temperature, automatic recording of accumulated running time, self-diagnosis function, display of corresponding alarm codes, and automatic protection of equipment
Environmental protection:
In response to the International Montreal Agreement, this series of models all use R134a and R410a environmentally friendly refrigerants, which will cause zero damage to the atmosphere and meet the needs of the international market.
There is no dead angle of heat exchange, basically achieving 100% heat exchange
Due to its unique mechanism, the plate heat exchanger makes the heat exchange medium fully contact the plate surface without heat exchange dead angles, no drain holes, and no air leakage. Therefore, compressed air can achieve 100% heat exchange. Ensure the stability of the dew point of the finished product.
▲ High temperature and high pressure steam flows into the condenser and secondary condenser, and its heat is taken away by the cooling medium through heat exchange, and the temperature drops. High temperature and high pressure steam becomes a liquid at room temperature and high pressure because of condensation.
▲ The liquid refrigerant of normal temperature and high pressure flows through the expansion valve, because the throttling pressure of the expansion valve is reduced, so that the refrigerant becomes the liquid of normal temperature and low pressure
▲ After the liquid at normal temperature and low pressure enters the evaporator, the liquid refrigerant boils and evaporates into low pressure and low temperature gas because of the reduction of pressure. The refrigerant evaporates and absorbs a lot of heat from the compressed air, making the temperature of the compressed air drop to achieve the purpose of drying.
▲ The low temperature and low pressure refrigerant vapor after evaporation flows back from the suction port of the compressor, and is compressed and compressed out into the next cycle.