Oil circulation temperature control machines are widely used in various industries such as plastic molding, hot-press mold temperature control, rubber industry, roller rollers, chemical reactors, and so on. As an industrial fluid temperature control device, the oil circulation temperature control machine includes two aspects of temperature control: heating and cooling.

Temperature Control Machine
MTW9510/06

Temp. Range

40~160±0.5℃

Features

  • Simple control panel and various indicators.
  • Full digital P.I.D sectional contorl system to keep stable temperature.
  • Perfect anti-sock device and feet wheel design.
  • Power source lack-phase protection,pump overload protection,temperature superheat protection,automatic hydration,automatic air discharge,pressure-relief circuit,multiple safety protection system.The operation is strong like rocks.
  • International well-known brand pump,high E.E.R.
  • Improve the yield rate due to the accurate control.
  • Accurate temperature (±0.5℃)
  • Low viscosity of water makes it heat up quickly.
  • Heat transfer oil which has the feature of high boiling point is suitable for the high temperature type. 

Specifications

Model MTW9510/06
Maximum Temperature 95℃
Pump Hp/Kw 1/0.75
Electric Heating Kw 6
Total Electric Power Kw 6.75
Flow Rate L/min 80
Pressure kg/cm² 2.5
Inlet/Outlet Boiling Water 3/8"×4
Inlet/Outlet Cooling Water 1/2"
Dimension mm 800×330×750
Weight Kg 100
The oil circulation temperature control machine is composed of oil tank, heating and cooling system, power transmission system, liquid level control system, temperature sensor, injection inlet and other equipment. When the oil circulating temperature control machine is working, the heat transfer oil enters the system from the oil storage tank, and is injected into the mold or other equipment that needs temperature control through the circulating pump. After the heat transfer oil comes out of the temperature controlled equipment, it returns to the system, and the cycle repeats. The heat transfer oil is heated by the heater. When the temperature of the medium detected by the temperature probe reaches the set value, the heater stops working. When the temperature is lower than the set value, the heater starts to work, when the temperature reaches the set value, it stops working, and so on.