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- 1/4 NPT-F 1
- 1/4 NPT-F__Adapter 1/2 NPT-F__Adapter 1/2 NPT-M 1
- 1 NPT__½ NPT__¾ NPT 1
- 1 NPT__G ½ B__G ¾ B male__½ NPT__¾ NPT 1
- 2-wire 1
- 2-wire__3-wire__4-wire 8
- 2-wire__3-wire__4-wire__G ¼__G ½__G…œ__M10 x 1__M14×1.5 1
- 2x 3-wire__3-wire__4-wire 1
- 2 x G ¼ B female__2 x G ½ B male__½ NPT male 1
- 2 x G ¼ female__2 x ¼ NPT female 2
- 2 x G ¼ female__Centre distance 26 mm__In-line__Lower 1
- 2 x G½ female, lower mount (LM) 1
- 3-wire__4-wire 1
- 14 mm flats lower mount 1
- 9/16 - 18 UNF (female)__M16 x 1.5 (female)__M20 x 1. 1
- 5/8 - 18 UNF (female)__9/16 - 18 UNF (female)__G ½__M 1
- 5/8 - 18 UNF x 27 (female)__9/16 - 18 UNF (female)__ 1
- 19 mm flats__2 x G 3/8 B (male)__Back mount__Lower mo 1
- 7/16-20 UNF 2B Schrader female 1
- 7/16-20 UNF BOSS__G¼ B EN 837 1
- 22 mm flats__G ½ 1
- 25.4...49.5 mm 1
- 26.7 mm__33.4 mm__48.3 mm 1
- 40 mm__50 mm 1
- ¼ NPT female 1
- ANSI Flange__DIN Flange 1
- ANSI Flange__Flange 4
- Back connection 1
- Back mount__G ½__Lower mount 1
- Back mount__Thermowell G½ B 1
- BSP ISO 228__NPT__ DN 50 1
- Butt Weld 2
- Clamp connection per DIN 32676 / ISO 2852 / BS4825 1
- Copper alloy, lower mount (LM) G 1/4 B (male), 14 1
- DIN 11864 1
- DN 100__DN 25__DN 40__DN 50__DN 80 1
- Flange 17
- Flange__G ¼__G ¼ A__G ½ A__¼ NPT female__½ NPT 1
- Flange__G…›__G…œ 1
- Flange__Screwed 1
- Flanged 74
- G 1/4 (female)__G 1/4 (male) 1
- G 1 1
- G 1„8__G ¼ 2
- G 1„8__G ¼__M10 x 1__R 1/8__¼ NPT__…› NPT 2
- G 1¼ 1
- G 1¼ male thread 2
- G 1__G 1„8 1
- G1__G2__G¼__G½__G¾ 1
- G 1__G 2__G ¼__G ½__G…œ 1
- G1__G¼__G½__G¾ 2
- G 1__M33 x 2 1
- G1 B__G½ B__M20 x 1.5__Push-in/weld-in__½ NPT 1
- G1 female__G¾ B__M20 x 1.5 male 1
- G1-ISO 228 male 1
- G 1 male thread 1
- G1 male thread 2
- G2 2
- G¼ 4
- G ¼...G 1 2
- G¼ / H16 UNF 1
- G¼__G¼ A__G½ A__M20 x 1.5__¼ NPT female__½ NPT 1
- G ¼__G¾ 1
- G¼__G…› 1
- G ¼__SW 14 1
- G¼__SW 14 1
- G¼ A DIN 3852-E__¼ NPT 1
- G¼ A DIN 3852-E__sealing FKM/FPM 1
- G¼ B (male)__G½ B (male)__SW14__SW22 1
- G ¼ B (male)__Stainless steel 316L 1
- G ¼ B (male)__SW 14 1
- G¼ B (NS63)__G½ B (NS80, 100) 1
- G ¼ B__G …› B__¼ NPT__…› NPT 1
- G ¼ B female__G ½ B male__½ NPT male 1
- G ¼ female__G ½ female 1
- G ½ 1
- G½ 4
- G ½...G 2 2
- G ½__G¼ 1
- G ½__G¼__M20 x 1.5__½ NPT 1
- G ½__G¼__SW 14__SW 17__SW 22 1
- G ½__G¾ 1
- G½__G¾__M20 x 1.5__M27 x 2 4
- G ½__G¾__M24x2 1
- G½__G…œ__M20 x 1.5 2
- G ½__Lower mount__SW22 1
- G ½__Lower mount__SW 27 1
- G ½__SW 22 1
- G ½ B 2
- G ½ B (lower mount) 1
- G½ B (male)__Stainless steel 316L__SW 22 1
- G ½ B__¼ NPT__½ NPT 1
- G ½ B__½ NPT__½ NPT female 1
- G½ B__G¾ B male 1
- G ½ B__M20 x 1.5__½ NPT 1
- G ½ B female__G ½ B male__½ NPT male 1
- G ½ B male__SW 22 1
- G ½ B thread 1
- G½-ISO 228 male 1
- G½-ISO 228 male__G¾-ISO 228 1
- G½ male 1
- G¾ 5
- G…œ 1
- G …œ...G 1 1
- JIS flange 4
- Lower mount__¼ NPT female 1
- NS 40: G 1/8 B (male) NS 50, 63: G 1/4 B (male), 1
- Pipe adapter 1
- Rp 1/2__Rp 3/4 1
- Rp - female thread cylindrical (BSPT) 1
- Socket Weld 3
- Stainless steel 1
- Surface mounting 1
- Threaded 15
- UExSC 1
- UExUE 1
- Union End Sil Braze 9
- Union nut 1
- Via subplate with lateral female thread connection 2
Medium Temperature
Nominal Diameter
Pressure Range
G 1 - ANSI Flange__Flange
5 items
VMZ 20 Magnetic Inductive Flow Sensor
7637
The SIKA VMZ 20 magnetic inductive flow sensor for electrically conductive liquids is designed for OEM applications. Thanks to the use of cost-optimized plastic components, the SIKA VMZ 20 has a compact and lightweight design. The smart flow sensors of the SIKA VMZ 20 induQ® series operate according to the principle of induction: The measuring pipe is in a magnetic field (B). If an electrically conductive medium, with the flow (Q) to be measured, flows through the measuring pipe and thereby at a right-angle to the magnetic field, a voltage (U) is induced in the medium. This voltage is proportional to the average flow velocity and is picked up by two electrodes. Regarding flow proportional output signals, two versions are available: Frequency output signal (standard) Analog and frequency output signal (option) The pulse rate can be configured at the factory. The induQ® sensors enable the flow measurement/volume flow measurement or dosing of electrically conductive liquids without any moving parts. They are the ideal flow sensors when accuracy and reliability are a must.
- USD
G2F 2-way Control Valve
8995
The Clorius G2F 2-way control valve is designed for regulating hot water, steam and hot oil systems. The double-seated G2F linear valve is used in installations where the system pressure necessitates a closing force greater than available in the actuator programme for a single-seated valve. The valve is used in conjunction with Clorius temperature or pressure differential regulators for controlling industrial processes, district or central heating plants or marine installations. Design The valve components – spindle, seats and cone – are made of stainless steel. The valve body is made of nodular cast iron EN-GJS-400-15 with flanges drilled according to EN 1092-2. The thread for the actuator connection is G1B ISO 228. The valves are double-seated. The leakage rate is less than 0.5% of the full flow (according to VDI/VDE 2174). Function Without the actuator being connected, the valve is held in an open position by means of a spring. With pressure on the spindle, the valve will close. In connection with our thermostats, pneumatic or electric actuators, the valves will close at rising temperatures. For cooling circuits, the valve can be used in conjunction with a reverse acting electric actuator. Alternatively, a reverse acting valve can be used with our self-acting thermostats. The quadratic characteristic will not cease until the flow has dropped below 4% of the full flow.
- USD
H2FR 2-way Control Valve
9013
The Clorius H2FR 2-way control valve is mainly intended for the control of cooling systems. The H2FR valves are used in conjunction with temperature or pressure differential regulators for controlling industrial processes or cooling systems. As the reverse acting valves are held in a closed position using a built-in spring, the max. differential pressure, ΔpL, against which a valve can close depends on the spring. When opening the valve, the actuator has to overcome the spring force. The table in the datasheet shows max. allowable values of ΔpL as well as the max. allowable inlet pressures for opening the valves, p1max, for various actuator forces. Design The valve components “ spindle, seat and cone – are made of stainless steel. The valve body is made of cast steel GP240GH (GS-C25) with flanges drilled according to EN 1092-1. The thread for the actuator connection is G1B ISO 228. The valves are double-seated. The leakage rate is less than 0.5% of the full flow (according to VDI/VDE 2174). Reverse acting Without an actuator being connected, the valve is held in a closed position using a spring. With pressure on the spindle, the valve opens. In connection with our actuators, the valves act as œcooling valves, i.e. they open at rising temperatures. The quadratic characteristic will not cease until the flow has dropped below 4% of the full flow.
- USD
H1F 2-way Control Valve
9029
The Clorius H1F 2-way control valve is designed for regulating hot water, steam and hot oil systems. The H1F control valve is used in conjunction with our temperature or pressure differential regulators for controlling industrial processes, district or central heating plants or marine installations. Design The H1F valve components – spindle, seat and cone – are made of stainless steel. The valve body is made of cast steel GP240GH (GS-C25) with flanges drilled according to EN 1092-1 or ANSI B16.5 Class 150. The thread for the actuator connection is G1B ISO 228. The valves are single-seated. The leakage rate is less than 0.05% of the full flow (according to VDI/VDE 2174). Function Without the actuator being connected, the valve is held in an open position by means of a spring. With pressure on the spindle, the valve will close. In connection with our thermostats, electric or pneumatic actuators, the valves will close at rising temperatures. For cooling circuits, the valve can be used in conjunction with a reverse acting electric actuator. Alternatively, a reverse acting valve can be used with our self-acting thermostats. The quadratic characteristic will not cease until the flow has dropped below 4% of the full flow.
- USD
M1F 2-way Control Valve
9045
The Clorius M1F 2-way control valve is designed for regulating low, medium and high-pressure hot water, steam and lubricating oils. The M1F valve is used in conjunction with our temperature or pressure differential regulators for controlling industrial processes, district or central heating plants or marine installations. Design The valve components – spindle, seat and cone – are made of stainless steel. The valve body is made of cast iron EN-GJS-400-15 with flanges drilled according to EN 1092-2. The thread for the actuator connection is G1B ISO 228. The valves are single-seated. The leakage rate is less than 0.05% of the full flow (according to VDI/VDE 2174). Function Without the actuator being connected, the valve is held in an open position by means of a spring. With pressure on the spindle, the valve will close. In connection with our thermostats, pneumatic or electronic actuators, the valves will close at rising temperatures. For cooling circuits, the valve can be used in conjunction with a reverse acting electric actuator. Alternatively, a reverse acting valve can be used with our self-acting thermostats. The quadratic characteristic will not cease until the flow has dropped below 4% of the full flow.
- USD
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