Jet Cleaner TANKO-MX
3.2.1 Function of the MX125
The item numbers shown in brackets refer to the Figure 7.5-1: Internal construction of the MX125.
The cleaning fluid enters through the connection cover (01) of the device and flows through the bores of the inflow disk (14) and into the actuator unit at a certain angle. In the process, the fluid meets the rotor impeller (15) which is connected fixedly to the shaft of the spur gear (18). The parts are set in rotation and the spur gear (18) drives the planetary gear. The spur gear with internal gearing (22) of the planetary gear is screwed fixedly to the shaft-axle connection (24) so that the generated torque is transmitted directly from the actuator unit in the direction of the cleaning head. Simultaneously, the cleaning agent flows further through the planetary gear via the bores in the ring gear (22), through the bevel gear for the nozzle carrier (26), and into the shaft-axle connection (24) of the cleaning head. In the cleaning head there is a bevel gear unit which comprises a fixed bevel gear for the housing (23) and a circulating bevel gear for the nozzle carrier (26). The fixed bevel gear for the housing (23) is screwed fixedly to the housing (02). The rotation of the shaft-axle connection (24) and the gearing of the bevel gears force the bevel gear for the nozzle carrier (26) to rotate. The circulating bevel gear for the nozzle carrier (26) is bearing mounted on the driver shaft for the nozzle carrier (25) and connected to the driver shaft by a pin (35). The nozzle carrier (27) is screwed fixedly to the driver shaft for the nozzle carrier (25). The nozzle carrier (27) is therefore driven. The simultaneous rotation of the bevel gear wheel for the nozzle carrier (26) around the axis of the fixed bevel gear wheel for the housing (23) and the forced rotation around its own axis generates the orbital rotary movement of the nozzles (12) around the cleaning head. The fluid flows past the bevel gear wheel for the nozzle carrier (26) and into the nozzle carrier (26) and is distributed to the side bores for the nozzles (12). From there, the fluid passes through the openings of the nozzles (12) and back out again. Any leakages from the cleaning device are used for the device’s self -cleaning. MX125 cleaning times The speed of the cleaning head varies depending on the volume flow rate which is determined in particular by the number of nozzles, the size of the bores in the nozzles and by the pressure of the cleaning agent. - If the entry pressure is 3 - 10 bar (44 - 145 psi), the speed of the cleaning head is 5 - 14 rpm. Fluctuations of 10 to 15% are to be expected due to the design. - A complete cleaning cycle is completed after 43 revolutions. At a speed of 5 rpm, 8.6 minutes are required for a complete cleaning cycle. - In order to determine the cycle time, divide the number 43 by the number of revolutions of the cleaning head per minute. After installation of the device, you have to check the speed of the cleaning head (see section 6.2. Functional Check / Trial Run ).
3 Construction and Function Translation of the original operating/installation instructions 2016/03
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