1.Product name |
Electron-Wave Water Treatment Unit (photo) |
2.Model |
ME-5200-B |
3.Standard configuration |
(1)ME-5200-B
(2)Output (electrode) cords
(3)Power cord
(4)Electron-wave receiving cord |
Mainbody
10meters
2meters
5meters |
One
Two
One
One |
4.Specifications |
Input voltage:100 Va-c +/-10%, single phase, 50/60Hz
Input current:100mA max.
Outside dimensions:179(W) x 240(D) x 82(H)mm
Weight:3.1kg(main body only)
Working temperature:-10 to +40 degrees C
Working humidity:80%max(non-condensing) |
5.Instructions
-1. Installation |
The voltage generator is a high-precision unit. Store it in a dust- and
water-proof box and install the box in a room out of direct sunlight. |
-2.Connection |
(1)Electron-wave receiving cord
Connect the receiving cord to the GND terminal (green) on the generator
body. To connect the other end of the cord, grind the processing object
until the base metal is revealed. The ME-5200-B does not properly function
in case of improper connection. The electron waves are absorbed into the
equipment, pipe, water, etc., to which the receiving cord conducts. The
connection of the receiving cord should be on a metal near the processing
object (e.g., heat exchanger).
(2)Output (electrode) cords
On the generator body, connect the white lead wire of th output cord to
the output-1 terminal (red) and the black lead wire to the output-1 terminal
(black). In the same manner, connect the second output cord to the output-2
terminal.
(3)Power cord
Connect the power cord to the power receptacle on he generator body. |
-3.Operation |
(1)Being certain that the power switch on the generator body is turned
off, insert the power cord plug into a 100 Va-c receptacle outlet.
(2)Flip on the power switch. The five lamps should light up: power, receiving,
output-1, output-2, and inspection port. |
-4.Inspection |
For daily inspection, verify that the output-1 and output-2 lamps are lit. |
6.Installing the electrodes |
The electron waves emit mostly from the stainless steel electrodes at the
ends of the output cords (each 10 meters long), but also from the cords
themselves. Use the 10-meter length for cabling.
Do not put the electrodes in contact with the processing object because
they are transmitters.
For use on conduits, the ME-5200-B comes with electrode fixing accessories:
pipe-end protection caps of 31-mm diameter, and vinyl electrode insulators.
(1)For equipment such as freezer
Install the electrodes about 50 cm above the equipment, one at the right
end and the other at the left end of the equipment. The space between the
electrodes are most intensely activated. For best performance, the electrodes
should be near to the equipment, but not so near as to receive the heat
and vibration of the equipment.
Usually the electron-wave receiving cord should be connected to the equipment
body, or to a cooling-water pipe flange on the equipment side by bolting
its terminal.
(2)For piping only
Wind the two output (electrode) cords spirally in opposite directions around,
but not in contact with, the pipe. Connect the electron-wave receiving
cord to a pipe flange by bolting its terminal. If a flange is not available,
bind the receiving cord to the pipe by winding a wire (an iron wire around
an iron pipe, or a copper wire around a copper pipe), and then verify conduction
to the pipe.
(3)For large water tank
With the output (electrode) cords extended as wide apart as possible, fix
both electrodes about a meter above the water surface by waterproofing
them.
Connect the electron-wave receiving cord (by bolting its terminal) to a
flange of an appropriate item (e.g., suction tube) which is conductive
to the reinforcing steel of the tank and installed in the water.
(4)For airtight cooling tower
Fix both electrodes as wide apart as possible in the space under the cooling-tower
water tank, by laying the output (electrode) cords around the tank. Make
sure that the generator body is housed in a completely dust- and water-proofed
window box and installed in a room out of direct sunlight.
Connect the electron-wave receiving cord to a coil-side cooling water pipe
by bolting its terminal. If the coil and cooling water pipe are insulated,
wind a copper wire about three turns around the coil (do this at two locations
per system), verify conduction, and connect the receiving cord.
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