Double Mechanical Seal Lobe Pump Sic/Sic/EPDM for Candy

Basic Info

  • Model NO.: TUR/TUL-30

  • Driving Type: Motor

  • Structure: Single-stage Pump

  • Power: Electric

  • Type: Jet Pump

  • Industry: Food Pumps

  • Performance: Sanitary Pumps

  • Motor Power: 1.5kw-18.5kw

  • Max Pressure: 12bar/174 Psi

  • Mechanical Seal: Sic/Sic/EPDM(Standard)

  • Voltage: 110V, 220V, 380V

  • Connection: Clamp, Thread Butt Weld, Flange

  • Trademark: MODO pump

  • Specification: CE, ROTHS, SGS

  • HS Code: 8413810090

  • Max.Capacity: 50-100 L/min

  • Material: Stainless Steel

  • Assembly: Liquid Pumps

  • Start Up: Electric Pump

  • Application: Submersible Pump, Clarified Water Pump, Sewage Pump, Slurry Pump, Oil Transfer Pump, Chemical Pump

  • Media: Powder Pump

  • Theory: Vacuum Pump

  • Max. Flow: 90m3/H/395 Gpm

  • Max. Rev.: 1450 Rpm

  • Seal Material: EPDM (Standard, FDA Approval)

  • Motor Frequency: 50Hz, 60Hz

  • Certificate: 3A/54-02 (1580), PED/97/23/Ec, FDA.177.2600, ISO90

  • Transport Package: Plywood Case or Customerized

  • Origin: Wenzhou, Zhejiang, China

Product Description

Double Mechanical Seal Lobe Pump Sic/Sic/EPDM for Candy

Horizontal TUL series and Vertical TUR series. There are different design for option: Mobile type, heat jacket border="1">

Product Name:Double Mechanical Seal Lobe Pump Sic/Sic/EPDM for Candy
Seal Material:EPDM (Standard, FDA approval) 
Max. Flow:90m3/h / 395 GPM
Max.pressure:12bar/ 174PSI
Max. working temperature:150 C / 302 F
Max. rev:1450 rmp
Rotor Type:2-leaves, 3-leaves, butterfly, signal butterfly
Mechanical seal:SIC/SiC/EPDM(Standard)
Motor power:0.75kw, 1.1kw, 1.5kw, 2.2kw, 3kw
Sealing option:Sanitary single mechanical seal/Double mechanical seal with cooling system
Voltage:110V, 220V, 380V
Motor:, 50hz/ 60hz
Surface treatment:Inner polished and Sandblast outside
Availably connection:Clamp, Thread Butt weld, Flange
Availably standard:DIN, SMS, 3A, RJT, ISO/IDF
Certificate:3A/54-02 (1580), PED/97/23/EC, FDA.177.2600, ISO9001/2008
Application scope: Dairy, food, beverage, pharmacy, cosmetic, etc
Packaging Details:Plywood case or customerized. Or as per the request of customers
Delivery details:Usually within 20 days after receiving T/T down payment

Operating principles
The pump basically consists of two lobe rotors which rotate inside the casing without touching each other.
As the rotors rotate, the space between the lobes and the casing is succesively filled with the product which is driven the discharge nozzle displacing a fixed amount of product.
The pumped product forms a continues stream due to the adjusted Space of the lobes and the pump casing thus ensuring an efficient pumping.

Lobe pumps are similar to external gear pumps in operation in that fluid flows around the interior of the casing. Unlike external gear pumps, however, the lobes do not make contact. Lobe contact is prevented by external timing gears located in the gearbox. Pump shaft support bearings are located in the gearbox, and since the bearings are out of the pumped liquid, pressure is limited by bearing location and shaft deflection.
1. As the lobes come out of mesh, they create expanding volume on the inlet side of the pump. Liquid flows into the cavity and is trapped by the lobes as they rotate.
2. Liquid travels around the interior of the casing in the pockets between the lobes and the casing -- it does not pass between the lobes.
3. Finally, the meshing of the lobes forces liquid through the outlet port under pressure.
Lobe pumps are frequently used in food applications because they handle solids without damaging the product. Particle size pumped can be much larger in lobe pumps than in other PD types. Since the lobes do not make contact, and clearances are not as close as in other PD pumps, this design handles low viscosity liquids with diminished performance. Loading characteristics are not as good as other designs, and suction ability is low. High-viscosity liquids require reduced speeds to achieve satisfactory performance. Reductions of 25% of rated speed and lower are common with high-viscosity liquids.