| MODEL | KPP-600 | KPP-900 |
|---|---|---|
| Cylinder diameter (mm) | 160 | 175 |
| Number of cylinders (NOS) | 2 | 2 |
| Installed engine power (Kw) | 5.5 | 7.5 |
| Max. capacity (m3/h) | 65 | 95 |
| Max. head (m) | 22 | 22 |
| Max vacuum (m) | 1.8 | 1.8 |
| Height(m) | 9.4 | 9.4 |
| Bare end pump weight (Kg) | 825 | 825 |
| Efficiency, up to (%) | 92 | 92 |
| Shaft sealing | Gland packing | Gland packing |
| Connection (In)) | 4 and 6 | 4 and 6 |
Precisely machined drive gears and an automatic lubrication system provide excellent performance and minimal sound emissions.
Allow access to the cylinders, stuffing boxes, and other critical areas for easy cleaning and maintenance.
The valve system is fitted with an O-ring seal and a solid bridge section for Securing purposes. This allows for quick and easy disassembly, even after prolonged use.
The stainless steel piston rods have been carefully machined to provide an increased service life and minimal maintenance.
Kamar Vertical Pumps are basically designed for the construction industry to mix and pump Bentonite clay used in pilling work. The pump has a vertical format design, top suction, and cantilever-type bearing housings, while the drive motor is located at the top. The pump is designed to mix and pump the Bentonite slurry, thus churning the Bentonite Slurry in the tank.
This pump can be hung in the tank by means of chain pulley blocks or any other conventional method so that it can be lowered or raised according to the level of the Bentonite in the tank. The Bentonite Mixing Pump is used to mix and pump Bentonite Slurry during the Paving Process in the Construction Industry. The material is designed to withstand the abrasive nature of the slurry during the Paving Process.
| Capacity (m3/hr.) | 60-108 |
| Head (mts) | 15-27 |
| Sp. Gr. of Slurry | 1.15 |
| Pump Speed (RPM) | 1400 |
| Wear Parts | Hi-Chrome |
| Discharge dia. (mm) | 75 |
| Suction dia (mm) | 125 |
| Mounting | Vertical |
| Absorbed Power (kW) | 10 |
| Motor Rating (kW) | 11 |
| RPM | 1450 |
| Frame Size | 160 M |
| Working Pressure(bar) | 16 |
Pumps are as per DIN 24256 and ISO 2858 and generally conform to API 61 0 (7th Edition). The design is a back-pull-out type. A variety of Largo models are available to operate at 1450 rpm and 2900 rpm at 50 Hz and 1750 rpm and 3500 rpm at 60 Hz.
The casing has axial suction and top centreline delivery. Smooth hydraulic passages ensure high efficiency. The normal design is for foot-mounted pumps, but centreline mounting for special applications is also available.
The impellers are enclosed, and semi-open impellers can also be supplied. Hydraulic balancing of impellers is achieved either by back vanes or by balancing holes. The impellers are statically and dynamically balanced. Reliable fixing of the impeller on shaft is achieved by using a Helicoil insert under the impeller nut. An inducer can be supplied to improve NPSH performance.
The shaft is supported by two antifriction bearings to absorb Residual Axial Thrust and Prevent Axial Float or Radial Runout. It is fully protected from the liquid handled by means of a shaft Sleeve and Ptfe Gaskets between the impeller Nut, Impeller Hub, and Shaft Sleeve.
The stuffing box is sealed by gland packing or mechanical seal. Some standardized parts can be converted from gland packing to mechanical seal, and re-machining the stuffing box is not necessary. Stuffing box cooling is provided for high-temperature applications.
The bearings are oil lubricated. For high-temperature applications, bearing oil cooling arrangements are provided.
It is clockwise viewed from the driving end.
Pumps can be driven by electric motors.
| Capacity (m3/hr.) | 400 |
| TDH (MLC) | 140 |
| Temperature (a#) | 120 |
| Working pressure (Bar) | 15 |