WZP-120/130 Thermocouple ye kɔc tɔ̈ɔ̈u thïn
High temperature type temperature sensor|Performance stable measurement precision|Good pressure resistance|Good interchangeability
Luɔi luɔi
Kä ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi, ye kek looi Na cï tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ
Thermoelectric properties is a universal property of matter, but only if the thermal power and temperature relationship curve is linear good, stability good, repeatability good, thermal power rate large, easy to standardize, material resources abundant, easy to purify, corrosion resistance good a pair of metal conductors can become a thermocouple's manufacturing material. Thermocouple ye luɔɔi juëc ye tɛmɛ në tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ
Thermocouple's thermal power will increase with the measurement end temperature rising. Thermocouple's thermal power size only relates to the thermocouple conductor material and the two ends temperature difference and the length and diameter of the thermoelectrode. Thermocouple's thermal power will increase with the measurement end temperature rising. Thermocouple's thermal power will increase with the measurement end temperature rising. Thermocouple's thermal power size only relate
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| Thermocouple luɔɔi diagram |
Thermocouple's nominal pressure (Thermocouple's nominal pressure) (Thermocouple's nominal pressure) (Thermocouple's nominal pressure) (Thermocouple's nominal pressure) (Thermocouple's nominal pressure)
A tɔŋ ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ̈n ye tɛ Tɔŋdu, tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ
Minimum insertion depth
A ka dhil tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈u ka tɔ̈ɔ̈
Thermocouple Structure
Në thermocouple's temperature measurement principle, thermocouple's basic thermocouple must also be manufactured in the two ends of the thermoelectrode according to requirements to be measured end and reference end, commonly called "hot end" and "cold end", which is called "two ends".
Në kë de thermocouple ye luɔɔi, thermal end ye insulation, multi-segment insulation, shell type, open head type, and cold end is sealed and non-sealed in two forms.
Thermocouples aye looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi ka looi Në kë de gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël de kä ye kek gël Në kë bï yen ya cɔk loi rot në luɔɔi de wiring, ku bï ya cɔk loi rot në luɔɔi juëc yiic, a ye looi fana bï yen ya cɔk loi rot në luɔɔi de wiring në luɔɔi de wiring në luɔɔi de wiring në luɔɔi de wiring. Kɔn ye "5" ye. Në kë de luɔɔi dɛ̈t peei yiic, thermocouple ye lëu bï tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛm Thermocouple ye looi aye looi në kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi, kaam ye looi.
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Selection of temperature measuring element
| Thermocouple kategori |
Division No |
Range de mesure ℃ |
Allow deviation <unk> t ℃ |
Karakteristika baara |
| Benefits |
Disadvantages |
| Nickel chrome <unk> nickel silicon |
K |
0~1200 |
±2.5℃ wala ±0.75%t |
Heat line is good, stability is good, antioxidant is good, it is very widely used temperature measuring components. Heat line is good, stability is good, antioxidant is good, it is very widely used temperature measuring components. |
Ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ |
| Nickel chromium <unk> copper nickel |
E |
0~800 |
±2.5℃ wala ±0.75%t |
Në thermocouples tɔ̈u yen, thermal power rate, sensitivity, two-level non-magnetic thermal power linear good, stability good, antioxidant good, is widely used temperature measuring components |
Ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ |
| Copper <unk> copper nickel |
T |
—40~350 |
±1℃ wala ±0.75%t |
Can be used for reducive atmosphere, hot spot linear good, low temperature characteristics good, stability good |
A tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ tɛmɛ |
| Iron-copper nickel |
J |
0~800 |
±2.5℃ wala ±0.75%t |
A lëu bï ya luɔ̈ɔ̈i në atmosphère reductive, thermal power K |
Iron easy to rust, thermoelectric properties drift large |
| Nickel chromium silicon <unk> nickel silicon |
N |
0~1200 |
±2.5℃ wala ±0.75%t |
K-type thermocouple's all advantages, short-range ordered structural change impacts are small. K-type thermocouple's all advantages, short-range ordered structural change impacts are small. K-type thermocouple's all advantages, short-range ordered structural change impacts are small. |
Ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ ka tɛmɛ |
产品选择型 Product select
Model nyuɔɔth
Model nyuɔɔth Type specification
| Thermocouple kategori |
Model Produk |
Division No |
Material pip gël |
Temperature Range ℃ |
Metod output |
 |
| Nickel chromium-nickel silicon |
WRN-130 |
K |
304 |
0-800 |
Direct output |
| Nickel Chromium-Nickel Silicon |
WRN2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRNB-130 |
304 |
0-800 |
4~20mA output |
| Nickel Chromium-Nickel Silicon |
WRNB2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRE-130 |
E |
304 |
0-800 |
Direct output |
| Nickel Chromium-Nickel Silicon |
WRE2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WREB-130 |
304 |
0-800 |
4~20mA output |
| Nickel Chromium-Nickel Silicon |
WREB2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRC-130 |
T |
304 |
0-800 |
Direct output |
| Nickel Chromium-Nickel Silicon |
WRC2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRCB-130 |
304 |
0-800 |
4~20mA output |
| Nickel Chromium-Nickel Silicon |
WRCB2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRF-130 |
J |
304 |
0-800 |
Direct output |
| Nickel Chromium-Nickel Silicon |
WRF2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRFB-130 |
304 |
0-800 |
4~20mA output |
| Nickel Chromium-Nickel Silicon |
WRFB2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRM-130 |
T |
304 |
0-800 |
Direct output |
| Nickel Chromium-Nickel Silicon |
WRM2-130 |
GH2520 |
0-1000 |
| Nickel chromium-nickel silicon |
WRMB-130 |
304 |
0-800 |
4~20mA output |
| Nickel Chromium-Nickel Silicon |
WRMB2-130 |
GH2520 |
0-1000 |
Install diagram