Immersible Pumps - SMTR Series
Shakti SMTR pumps are vertical multistage centrifugal pumps designed for pumping cooling lubricants for machine tools, condensate transfer and similar applications. The pumps are designed to be mounted on top of tanks with the chamber stack immersed in the pumped liquid..
The pumps come in various pump sizes and have various numbers of stages to provide the flow, the pressure and the installation length required. To meet specific depths of tanks or containers, the immersible length of the pump can be varied using empty chambers.
The pumps consist of two main components: The motor and the pump unit. The motor is a Shakti standard SMG motor designed to EN standards. The pump unit consists of optimised hydraulics, various types of connections, a motor stool, a given number of chambers and various other parts.
The mounting flange dimensions are according to DIN 5440, and The mechanical shaft seal is according to EN 12 756.
- Head, H : Max. 230 m
- Discharge : Max. 140 LPM
- Flow, Q : 8.5 m3/hr
- Rating : 0.5 HP to 7.5 HP
- Excellent Hydraulic Performance.
- Study and Compact Design.
- High Quality Aluminium Motor Body.
- Stainless Steel Shaft.
- Dynamically Balanced Rotation of All Parts.
- Quiet & Maintenance Free.
- Interchangeability for Easy Replacement.
Shakti range of high-pressure pumps offers unsurpassed accuracy and stability to make sure that nothing interferes with the delicate machining process. Equally important, high efficiency ensures a remarkably low heat input into the cooling lubricant. Pumps suitable for machine tool applications are the immersible SMTR, offering a tank mounted design.
MACHINE TOOL APPLICATIONS: Shakti Immersible pumps SMTR Series:
- Boring: When boring, an immersible SMTR pump is used to deliver coolant to the boring bar. This pump typically sits inside of a coolant tank and maintains a constant flow of coolant at an even pressure - necessary for maintaining the integrity of both boring bar and workpiece.
- Milling/Turning Applications: Immersible SMTR pumps are commonly employed in milling and turning operations to supply coolant to the cutting tool. Mounted inside the coolant tank, these pumps ensure a constant supply of coolant is delivered to ensure maximum tool quality as well as tool life.
- Wire Cutting:In wire cutting applications, an immersible SMTR pump is employed to supply dielectric fluid to the cutting wire. This pump typically mounts inside a fluid tank and ensures consistent fluid flow at constant pressure - essential for maintaining cut quality and wire life.
- Filtration: Filtration: In filtration applications, an immersible SMTR pump is utilised to circulate fluid through a filter to eliminate contaminants. This pump typically sits inside the filter tank and ensures constant fluid flow at an established pressure - necessary for maintaining filter efficiency.
- Part Washing: Immersible SMTR pumps are commonly employed in part washing applications to deliver cleaning fluid to parts. These pumps are usually mounted inside a washing tank and designed to deliver an even flow of cleaner at constant pressure -essential for maintaining parts cleanliness.
- Chilling: In chilling applications, an immersible SMTR pump circulates coolant through a heat exchanger to remove heat from the process. This pump typically mounts inside of the coolant tank and ensures consistent coolant flow at constant pressure - essential for maintaining efficiency of the heat exchanger.
- Condensate Systems: In a condensate system application, an immersible SMTR pump is utilised to remove condensate from the system. This pump typically sits inside of the condensate tank and ensures an even flow of fluid at constant pressure - essential for maintaining efficiency within the system.
- Wash & Clean::Immersible SMTR pumps are commonly employed in wash and clean applications to deliver cleaning fluid to parts. The pump is typically mounted inside the washing tank and designed to deliver a steady stream of cleaner at constant pressure - essential for maintaining parts cleanliness.