Thermalement sensor-precision in temperature measurement technology
With us from Seikom Electronic you can expect the highest quality with claim:
• Intelligent temperature measurements with thermoelectric sensors
• precisely and exactly in a wide measuring range
• Experience and professionalism
• 100 % "Made in Germany"
Feel free to take a look at our range Measurement and control technology around and find thermo elements here that meets your requirements.
Thermoelectric sensor from the expert
We have been offering high-quality measurement and control technology products from Seikom Electronic for over 30 years and, as one of the leading providers, have established ourselves with a TÜV-tested range. Number of large and small companies and companies trust ours today Heating, ventilation, climateDevices, Pressure transmers, Air quality sensors and much more .We are also one of the few experts who have a selection of them ATEX products For areas in which functional security and explosion protection are essential. Trust with us on professional know-how for thermo elements as well as in the Flow guard Sil or Outside temperature sensor. We are happy to be there for you personally at any time.
What can you expect from thermoelectric sensors?
A thermoelement as a thermoelectric sensor ensures precise measurement of temperatures. Typically, a thermocouple consists of two different types of metal, which are connected to each other at their ends. The other two ends are followed by the measuring instrument that the ability has to process the outgoing signal. The diverse forms of construction of thermo elements enable their use over a wide range of temperature conditions. One of the most widespread types of thermo elements is the type K, which covers a large temperature range from -200 to 1,250 degrees Celsius.
The conversion of the electrical voltage to measure temperature changes is based on the Seebeck effect, which says that a tension is created when there is a temperature difference between two different metals, which, as already mentioned, are connected to their ends. The voltage generated is proportional to the temperature difference, which allows a direct and effective method for temperature monitoring and control.
What are the advantages of thermo elements?
Intelligent thermo elements convince with numerous advantages that you can take advantage of for your workflows. Due to their high precision, they are suitable for many demanding environments, so that they do not have to compromise.
Overview of all advantages of thermocouple elements:
1. High temperature resistance: Thermo elements can measure very high temperatures, typically up to 2,500 degrees Celsius, which makes it ideal for areas of application such as industrial stoves, gas turbines and other high -temperature environments.
2. Fast response time: Thermal elements react quickly to temperature changes. This enables precise and timely monitoring of temperature changes in processes in which fast response times are required.
3. Further temperature range: In addition to the ability to measure high temperatures, thermo elements can be used even at very low temperatures, which makes it versatile.
4. Easy handling and robustness: Thermo elements are robust and durable due to their simple construction. They consist of two different metals, are easy to install and require little maintenance.
5. Inexpensive: Compared to other temperature sensors, thermo elements are often cheaper, especially considering their durability and robustness.
6. Direct temperature measurement: Thermal elements measure temperatures directly and are not dependent on conversions or complex sensor technologies. As a result, they offer high accuracy without the need for frequent calibration.
7. Flexibility in the shape: The wires of a thermoelement can be long and flexible, which facilitates installation in complex industrial systems.
How does a thermocouple work as a thermoelectric sensor?
If two different metals are connected to their ends and one of the connecting points is heated, a current is created in this thermoelectric cycle. If the circle is interrupted, the resulting thermoelectric voltage reflects the temperature at this connecting site.
Thermo elements consist of different metal combinations, classified in types such as K, J, T, E and N from base metals as well as R, S, B, C and G for high temperatures made of precious metals. Each type has a specific temperature range and is suitable for different environments. However, the maximum temperature that a thermocouple can tolerate is often limited by the diameter of the wire. Type K is ideal for general applications due to its wide temperature range and low price.
Where are thermo elements used?
When it comes to the temperature measurements with high demands, thermo elements show in a variety of Application areas their qualities:
• Process industry: Monitoring and control of industrial ovens, boilers and heating systems.
• Energy generation: Temperature measurement in power plants to ensure efficiency and security.
• Food processing: Ensure correct cooking and freezing temperatures.
• Plastic industry: In plastic processing, e.g. For example, when pouring or extruding or extruding, thermo elements are used to precisely monitor and control the temperature of the melt and tools.
• Metal processing: Temperature monitoring in heat treatment processes such as hardening, forging and soldering to achieve the desired material properties.
• Packaging industry: Control of seal processes to ensure the integrity of packaging.
• Halver ladder industry: Precise temperature control to comply with process specifications and purity of the products.
How do I find the right thermoelement?
Before you choose a thermoelectric sensor, you should make sure that this also meets your needs. It is important that the model fits seamlessly into your processes and supports your routines. Below we have compiled some of the most important selection criteria for thermo elements:
• Type of the thermoelement: Selection of the correct thermalement type (e.g. type K, J, T) based on the necessary temperature range and the surrounding area.
• Measurement area: Ensure that the measuring range of the thermocouple is suitable for specific application.
• Accuracy class: Adaptation of the accuracy requirements depending on the required measurement precision.
• Material and design: Requirements depending on the chemical resistance as well as mechanical and thermal conditions.
• Protection class: Suitable protective housing or protective pipes, especially for rough industrial environments.
• Connection options: Selection of connector or cable connections according to the intended installation.
What are the optimal installation conditions for thermoelectric sensors?
So that thermo elements can also play your full efficiency, you should pay attention to the right conditions when installing.
This includes:
• Correct installation location: Thermal elements should be placed where they can measure the actual temperature of the medium without external influences.
• Minimal interference: Avoidance of electrical and magnetic disorders that could affect measuring accuracy.
• Simple accessibility: Thermal elements should be easily accessible for maintenance work.
• Environmental protection: If necessary, the thermocouple should be installed in noise and clean environments or using protective covers.
We at Seikom Electronic stand for quality and innovation in the area of temperature measurement technology. Our thermo elements are the result of constant development and strict quality controls in order to provide you with optimal products for your requirements. Explore our comprehensive offer and all of our Product categories And find the thermo element that meets your expectations of precision and reliability.
