INDUSTRIAL TRANSFER PUMPS

INDUSTRIAL TRANSFER PUMPS

Diaphragm Transfer Pumps - Plastic Body Pumps - Metal Body Pumps - Hygienic Pumps - High Pressure Pumps - Powder Pumps

PLASTIC BODY PUMPS Diaphragm pumps also run trouble-free even if there is not any fluid withininside them. However, when the pump is confronted with the counter pressure in fluid transfer, it has a property to discharge the compressed-air without damaging the elastomer parts. Due to the fact that the electrical motor has not been used in diaphragm transfer pumps operating thorough compressor-air driven, the pump is completely ex-proof and provides a safe working environment. Diapragm pumps have a multi-purpose use and can be easily used in high-flow and particle fluid tansfers. Appropriate selections complying with the fluids of these pumps that have Neoprene, Bunan, EPDM, Viton, Santroprene, Teflon elastomers are executed. And therefore, the pumps are provided to be long-lasting pumps. Technical Specifications Model (lt/mn) Input- Output (inch) Pressure (max. bar) Altitude (max. m) Depth (m) Temperature ( C) Inlet Permeability (mm) VP (1/ ) 1 1/ ~ +1 1/ 1 1. VP (/ ) / ~ +1 1/. VP 1 (1 ) 1 1 ~ +1 1/ 8. VP 1 (1 1/ ) 1 1/ ~ +1 /. VP ( ) 18 ~ +1 /. VP ( ) 89 18 ~ +1 / 8 9. Weight (kg)

METAL BODY PUMPS There are two diaphragm rooms and two diaphragms in a diaphragm pump. Diaphragms are connected to one another with a common shaft and move in parallel with one another at the same time. While one of the diaphragms is moved by being forced by means of compressed air, the other diaphragm connected to the other diaphragm with shaft discharges the excess air in fron of the diaphragm. When the stroke has been completed, air valve automatically changes the direction of the compressed air and the same movements are repeated in the other direction. Reciprocate movement repeated continuously provides the fluid in each room with absorbtion and discharge movement. Continuosly reciprocating movement enables the fluid to get into either room and discharge from the others and to so be pumped. Absorption and discharge/drain valves regulate the flow of fluid from the inlet to outlet of the room. Ball and clack valves automatically check the flow of fluid from entering into room to leaving them. Clack valves provide the transition of solid particles next to diameter of the pipe during pumping of the fluids in different viscositiy. On the other hand, ball valves provide the transition of solid particles in least dimension. Technical Specifications Model (lt/mn) Input- Output (inch) Pressure (max. bar) Altitude (max. m) Depth (m) Temperature ( C) Inlet Permeability (mm) VP (/ ) / 18 ~ +1 1/.9 VP 1 (1 ) 1 1 18 ~ +1 1/ 9. VP 1 (1 1/ ) 1 1/ 18 ~ +1 /. VP ( ) 18 ~ +1 /. VP ( ) 89 18 ~ +1 / 8 1. Weight (kg)

HYGIENIC PUMPS Hygienic pumps are used in the sectors such as food, pharmaceutical and cosmetics. The connection shape is clamp attachment. The hull material of the pumps is 1 L stainless steel. In respect to its fluid property, there are optionas such as Teflon, Santopren, EPDM and neoprene elastomers. Diaphragm pumps differ from absorption depth and pump head compared to equivalent pumps used in fluid transfer and can absorb the fluid from m depth and pump up to 1 m vertical height. Diaphragm pumps are, due to the properties of construction, used in the transfer of fluids that have high viscosity, involve solid particle (Ø8 mm), that are corrosive and abrasive. Technical Specifications Model Flow (lt/mn) Input- Output (inch) Pressure (max. bar) Altitude (max. m) Depth (m) Temperature ( C) Inlet Permeability (mm) VP / 18 ~ +1 1/. VP 1 1 1 18 ~ +1 1/ 1. VP 1 1 1/ 18 ~ +1 /. VP 18 ~ +1 / 1. VP 89 18 ~ +1 / 8. Weight (kg)

HIGH-PRESSURE PUMPS Power quantity (compressed air) in which the diaphragm pumps have been used is proportional to the operating time. Power loss has not been existed. During pumping, when the area being discharged has been dried, they can run in open circuit. While the pump is running in no-load (idling), it is not heated and due to firction any abrasion is not occurred. During the transfer of fluid, when any contraction, blockage or enclosure is occurred, it slows down or stops without causing any failure or energy consumption. When the outlet is opened, the pumping process restarts. Flow control varying from 1 litres to 89 litres in a minute is used if required. In order to increase the capacity, a few diaphragm pumps can be connected to outlet. Ball valve diaphragm pumps can pump viscosity materials like asphalt. Ball valves provide the solid particles in small size to transmit. However, in cases where the solid particles are larger, clack valve diaphragm pumps are used. They have no engine or electrical connections. They are secured against explosive. Overheating does not occur due to any friction. They can show leak-free running. They are used in explosive atmospheres such as underground mines and chemicals. There are no mechanical gasgets, packings, rotors, blades, gears or wheels in diaphragm pumps. Hence, they are less broken down compared to other types of pumps. Technical Specifications Model (lt/mn) Input- Output (inch) Pressure (max. bar) Altitude (max. m) Depth (m) Temperature ( C) Inlet Permeability (mm) VP 1 (1 ) 1 1 1 18 ~ +1 1/ 1. VP 1 (1 1/ ) 1 1 1/ 1 1 18 ~ +1 /. VP ( ) 1 1 18 ~ +1 /. VP ( ) 1 Weight (kg) 1 18 ~ +1 / 8.

POWDER PUMPS Vestapump keeps huge-pump air diaphragm powder pumps in product range for pump powder transfer as a solution. These pumps can easily absorb the powder by working principle with compressed air and transfer it in bar pressure. Poder pums both run in high efficiency and do not induce raising dust from atmosphere. Hugepowder pump is suitale for the powders not adhering to the wall that has a definite specific weight. - Plaster - Starch - Bentonit - Cement - Silicon Those are some suitable examples for transferring

Performance Curves VP (1/ ) Diaphrgram Pump Performance Curve VP 1 (1 1/ ) Diaphrgram Pump Performance Curve Pump Head (bar) 1 1,8 m /h (air inlet flow), m /h, m /h, bar (air inlet flow), bar,1 bar,9 m /h,8 bar 8, m /h 1 m /h Pump Head (bar) 1 1 m /h (air inlet flow) m /h m /h, bar (air inlet flow), bar,1 bar,8 bar 9 m /h 8 m /h 1, bar 8 1 1 1 1 18 1 1, bar 1 Litre Capacity in a Minute (lt/mn) Litre Capacity in a Minute (lt/mn) Pump Head (bar) 1 VP (/ ) Diaphrgram Pump Performance Curve, m /h (air inlet flow),9 m /h 1 m /h1, m /h 1 m /h, m /h, m /h,9 m /h, bar m /h, bar (air inlet flow),1 bar,8 bar m /h Pump Head (bar) 1 VP ( ) Diaphrgram Pump Performance Curve m /h ( (air inlet flow) m /h, bar (air inlet flow), bar,1 bar 1 m /h,8 bar 1 m /h 19 m /h 1 1, bar 1 1, bar Litre Capacity in a Minute (lt/mn) Litre Capacity in a Minute (lt/mn) Pump Head (bar) VP 1 (1 ) Diaphrgram Pump Performance Curve 1 m /h (air inlet flow) 1 m /h m /h, bar (air inlet flow) m /h, bar m /h m /h,1 bar,8 bar Pump Head (bar) VP ( ) Diaphrgram Pump Performance Curve m /h (air inlet flow) 9 m /h 1 m /h 1 m /h 11 m /h m /h, bar, bar (air inlet flow),1 bar,8 bar m /h 1 1, bar 8 1 1 1 1 1 1 1, bar 8 9 Litre Capacity in a Minute (lt/mn) Litre Capacity in a Minute (lt/mn) 8

Spare Parts used in Pumps DIAPHRAGMS INNER DIAPHRAGM HOLDER OUTER DIAPHRAGM HOLDER LINER AND PISTON SET GASGETS AIR VENT AIR AND PILOT VALVE REPAIR KIT SHAFTS PISTON RINGS MUFFLERS BALLS BALL HOUSING 9

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