KSR-KUEBLER Vietnam

KSR VIETNAM 

OUR SERVICES CAN BE MEASURING.
ALWAYS THE BEST AT THE RIGHT PLACE.

 

YOUR NEEDS ARE AT THE HEART OF OUR WORK.
WE OFFER A HIGH DEGREE OF FLEXIBILITY TO FIND THE BEST POSSIBLE SOLUTION IN CLOSE CO-OPERATION WITH YOU.
WITH OUR WEALTH OF EXPERIENCE SPANNING MORE THAN 35 YEARS, HEINRICH KÜBLER AG DESIGNS AND BUILDS LEVEL MEASURING TECHNOLOGY FOR YOU AT THE VERY HIGHEST LEVEL.

WE FOR YOU

 

KFG Level AG has built level measuring technology with float gauge systems since 1996. Our strengths are in tailor-made solutions for virtually every liquid medium with the shortest possible lead times. Around 90 extremely well trained employees give their best on a daily basis to develop the optimum solution for our customers. KFG Level AG is an independent Swiss company and firmly anchored
in KFG Group AG.

PRODUCTS

1001 Magnetic Float Level Transmitter

The magnetic float level transmitter device serves as a readings recorder for the electrical, continuous remote indication of the filling level. The operation of the measuring devices is based on the float principle. Through the wall of a guide tube the magnetic field, which is contained in the spherical or cylindrical float, triggers reed contacts, which uninterruptedly pick up the measuring voltage given at a resistance measuring chain. The measuring voltage is proportional to the height of the filling level ( 3-wire potentiometer circuit ). The size of the reed contacts is made up in different accuracy’s. In connection with a control unit the resistance value can be converted into a standardised analogue value,

e.g. 4 …20 mA.

Specific gravity: Design pressure: Design temperature:

≥ 400 kg/m3 -1 bar ... 150 bar -50°C ... 250°C

 1003 Magnetic Float Switches

This magnetic float switch works according to the float principle and by using magnetic transmission ( permanent magnet / reed contact ). A float with a built-in magnetic system is conducted along a non-magnetic guide tube. Due to the magnetic field of the permanent magnet, a reed contact ( protective gas contact ), located in the guide tube, will be activated, after a defined height has been reached. As a result the electric circuit will be closed or interrupted, depending on the switch function. Depending on the number of preset switching functions and their intervals, the device will be equipped with one or more floats

Specific gravity: Design pressure: Design temperature:

≥ 400 kg/m3 -1 bar ... 150 bar -50°C ... 250°C

1003-h Magnetic Float Switches Horizontal

The horizontal magnetic float switches work with reed contact ( protective gas contact ). The activation of the reed contacts by the magnetic field of a permanent magnet located at the float intake is triggered in a completely wear-free and contact-free way. The only moving component of the horizontal magnetic float switch is the float system as a whole

Specific gravity: Design pressure: Design temperature:

≥ 350 kg/m3 -1 bar ... 140 bar -30°C ... 250°C

1004 Electrodes

Electrodes work according to the conductive principle in connection with filling level controllers ( see chapter 1011 ). When the electrodes are immersed into an electrically conducting liquid, a control current will flow through the liquid. Via a measuring amplifier a switching contact will be activated by the controlling current. The current circuit is galvanically isolated from the mains and is operated by protective extra-lowvoltage. In order to avoid an electrolytic effect on the electrodes, they are operated with alternating voltage.

Design pressure: Design temperature:

-1 bar ... 60 bar -60°C ... 180°C

1007 Flow Controller

The flow controller work according to the floated element measuring principle. The floated element is conducted into a cylindrical slit nozzle. Depending on the design the installation of the flow controller may be position-dependent ( only floated element ) or independent of position

( floated element plus spring ). Outside of the flowing circuit a reed contact ( protective gas contact ) is installed. The reed contact is infused into a steplessly adjustable casing ( switch housing ) and thus protected from external influences. The inflowing medium moves floated element in the direction of the flow-through. Once the floated element with its integrated magnets has reached the position of the reed contact, the contact blades will close. When the flow rate increases, the variable area float will move farther in the flow direction, at a maximum to the end stop. The latter prevents the floated element from driving over the switching area of the reed contact ( bistable property ).

Viscosity range: Design pressure: Design temperature:

30 cSt ... 600 cSt -1 bar ... 300 bar -20°C ... 160°C

1008 Magnetic Switches

A magnet switch contact consists of two flat contact blades which have been infused into a glass bulb filled with protective gas. Due to the approach of a permanent magnet the interleaved ends of the contact blades are attracted to each other and touch each other abruptly. With the permanent magnet removed the contact blades will promptly demagnetise themselves and leap back into their idle state. A magnet switch has an almost complete lack of idleness and it may be called a „ quasi-electronic component 

Design temperature:

-60°C ... 180°C

 1009 Suspended Float Switches

The suspended float switch is engineered especially for use in sewage works and pumping stations in liquids heavily charged with solid matter such as raw sewage etc. Thanks to the good chemical and thermal properties our level controllers are resistant to lees, uric acid, fecal sewage water, oils, petrol, diesel oil, emulsions, alcohol, fruit acids, and even many chemicals.

Design pressure: Design temperature:

0 bar ... 2 bar 0°C ... 80°C

 

 1015 Bypass Level Indicator

Bypass level indicators form an integral part of the pressure vessel. Via two process connections a standpipe ( bypass ) is mounted to the side of a tank or vessel. Due to the direct connection the filling level in the bypass will always correspond exactly to the filling level in the vessel ( communicating pipes ). In the bypassing pipe a cylindrical float with a built-in magnetic system is contained. The concentrated magnetic field of the permanent magnet corresponds exactly to the filling level of the liquid in the bypass. In a contactless way the magnetic field transmits itSelf through the wall of the standpipe onto externally mounted displaying, recording and switching elements.

Specific gravity: Design pressure: Design temperature:

≥ 350 kg/m3 -1 bar ... 300 bar -196°C ... 400°C

1015-mini Bypass Level Indicator-Mini

Bypass level indicators form an integral part of the pressure vessel. Via two process connections a standpipe ( bypass ) is mounted to the side of a tank or vessel. Due to the direct connection the filling level in the bypass will always correspond exactly to the filling level in the vessel ( communicating pipes ). In the bypassing pipe a cylindrical float with a built-in magnetic system is contained. The concentrated magnetic field of the permanent magnet corresponds exactly to the filling level of the liquid in the bypass. In a contactless way the magnetic field transmits itSelf through the wall of the standpipe onto externally mounted displaying, recording and switching elements.

Specific gravity: Design pressure: Design temperature:

≥ 560 kg/m3 -1 bar ... 6 bar -40°C ... 150°C

1016 Top Mounted Level Indicator

Top mounted level indicators form an integral part of the pressure vessel. Via a process connection a standpipe is mounted on top of a tank or a vessel. The top mounted pipe contains a magnetic system which is connected to a float and buoyancy rod system. The concentrated magnetic field of the permanent magnet transmits the liquid level of the tank below in proportion to the filling height in a contactless way through the wall of the top-mounted standpipe onto externally mounted displaying, recording and switching elements

Specific gravity: Design pressure: Design temperature:

≥ 300 kg/m3 -1 bar ... 100 bar -196°C ... 400°C

1016-mini Top Mounted Level Indicator-Mini

Top mounted level indicators form an integral part of the pressure vessel. Via a process connection a standpipe is mounted on top of a tank or a vessel. The top mounted pipe contains a magnetic system which is connected to a float and buoyancy rod system. The concentrated magnetic field of the permanent magnet transmits the liquid level of the tank below in proportion to the filling height in a contactless way through the wall of the top-mounted standpipe onto externally mounted displaying, recording and switching elements.

Specific gravity: Design pressure: Design temperature:

≥ 300 kg/m3 -1 bar ... 6 bar -196°C ... 150°C