56 Micro Reaction Torque Sensor | For Small Range, Tight Spaces

56 Micro Reaction Torque Sensor

56 Micro Reaction Torque Sensor is a small range static torque sensor specially designed for small installation space. There are mounting flanges on the bottom of both ends. Small size, suitable for small and compact spaces. Low range static torque measurement, 0-0.1-20N.m optional. Applications include fastener testing, engine testing, automotive and aerospace engine testing, automotive brake testing, and prosthetic limb testing, among others.

Features of 56 Micro Reaction Torque Sensor

  • Easy integration into OEM applications
  • Designed for Torque Calibration
  • Aluminum or stainless steel construction
  • Mechanical structure with overload protection
  • Metal foil strain gauge technology.
  • Small size, convenient installation with flange structure
  • Stainless steel or aluminum alloy structure, high precision, good stability.
  • Static torque test in preparation, torque wrench and other torque testing equipment;
  • Small size, suitable for small and compact spaces
  • Low range static torque measurement, 0-0.1-20N.m optional
  • Torque can be measured in both positive and negative directions

Technical Parameters

ParameterTechnical specifications
Range0~0.1, 0..2,0.5,,1,2,3,5,10,20 Nm
Sensitivity1.5±10% mV / V
Zero Output±1% F.S.
Non-linearity±0.1, 0.3% F.S.
Hysteresis≤±0.05% F.S.
Repeatability≤±0.05% F.S
Creep≤±0.03% F.S/30min
Temperature Sensitivity Drift0.03% F.S. / 10℃
Zero Temperature Drift0.03% F.S. / 10℃
Input Resistance350,750±10Ω
Input resistance350,700±5Ω
Response Frequency100μS
Insulation resistance≥5000MΩ/ 100VDC
Excitation Voltage10VDC(9-15VDC)
Temperature Compensation Range-10 ~ 60℃
Operating Temperature Range-20 ~ 65°C
Safe Overload150% F.S.
Limit Overload200% F.S.
Cable SizeØ5.2×3m
Electrical connectionRed/E+, Black/E-, Green/S+, White/S-
MaterialAluminum, stainless steel or alloy steel
Other requirementsCustomized available

Dimensions

Learn More About 56 Micro Reaction Torque Sensor | For Small Range, Tight Spaces

Torque sensor, also known as torque sensor, torque sensor, torque sensor, torque meter. It is divided into two categories: dynamic and static. Among them, dynamic torque sensor can also be called torque sensor, torque speed sensor, non-contact torque sensor, rotational torque sensors etc.

Torque sensors are the detection of torsional torque on various rotating or non-rotating mechanical parts. Torque sensors convert physical changes in torque into precise electrical signals.

Torque sensors can be used in the manufacture of viscometers, electric (pneumatic, hydraulic) torque wrenches. It has the advantages of high precision, fast frequency response, good reliability, and long life.

Torque sensors are used in a wide range of applications, but after all, the measured data are two aspects.

Torque sensors can be used to measure force. This includes both dynamic and static types of sensors.

The torque sensor can also be used to measure the rotational speed secondly. The torque sensor converts the physical change of torque into an accurate electrical signal. It is mainly used in power, and it has the characteristics of long service life, high precision, high reliability and so on.

Torque sensors are not common in our daily life, but its application is very important.

At present, the relatively mature detection method of torque sensor torque test is strain electrical measurement technology. Paste the special torsion measuring strain gauge on the measured elastic shaft with strain glue to form a strain bridge. If the working power is supplied to the strain bridge, the electrical signal of the elastic shaft torsion can be tested, which is the basic torque sensor. model.

A very important application of torque sensors is in automobiles. The torque sensor on the car checks the torsional deformation of the torsion bar and converts it into an electronic signal and transmits it to the electric power steering system under the battery. In this way, the torque sensor is very important in terms of car safety, and the quality of the torque sensor will directly affect the Determine the safety factor of driving.

Of course, torque sensors are also required in large quantities in other industries to measure various torques, rotational speeds, and mechanical power.

  1. Detection of output torque and power of rotating power equipment such as electric motors, engines, and internal combustion engines;
  2. Detection of the torque and power of fans, water pumps, gearboxes, and torque wrenches;
  3. Detection of torque and power in railway locomotives, automobiles, tractors, airplanes, ships, and mining machinery;
  4. It can be used for the detection of torque and power in the sewage treatment system;
  5. It can be used to manufacture viscometers;
  6. It can be used in process industry and process industry;
  7. It can be used in laboratories, testing departments, production monitoring and quality control;

Classification of torque sensors:

  1. Dynamic torque sensor/rotary torque sensor

Dynamic Torque Transducers/Rotary Torque Transducers are used in applications where torque measurements must be made on rotating shafts, engines or stationary motors. In this case the transducer must rotate on a straight line attached to the shaft. Dynamic torque transducers are equipped with slip rings or wireless electronics that transmit torque signals while rotating (non-contact transducers).

Dynamic torque transducers/rotary torque transducers are often used as test tools for electric motors, torque measuring tools, turbines and generators to measure rotational torque.

Shaft-to-shaft rotary torque sensors are also used for feedback control, monitoring torque, analyzing test bench efficiency, and torque measurement on rotating shafts using strain gauges.

A dynamic torque sensor/rotary torque sensor is also an important part of a dynamometer. Because it provides torque measurement and angular velocity (RPM). The output power can be easily calculated. Therefore, the electromechanical efficiency of the motor or engine can be accurately calculated.

  1. Static torque sensor

In some applications, a static torque sensor can be used to measure the torque measurement made by an in-line rotary sensor at the point where the torque is transmitted to the ground (static torque measurement).

A reaction torque meter has two mounting flanges (flange-to-flange sensor). One face is fixed to the ground or to a rigid structural member. The other face is fixed to the rotating shaft or rotating element. Rotation creates shear forces between the flanges. This shear force is captured by a foil strain gauge attached to the sensor beam and converted into an electrical current through a Wheatstone bridge.

For a given application, static torque sensors (also known as torque sensors) are usually less complex than rotary sensors. So cheaper than a rotary sensor. Static torque transducers are often used as torque calibration tools or torque wrench calibration tools. The static torque sensor can also be used as a miniature electric torque screwdriver, allowing engineers to obtain torque feedback in real time, or to study the applied torque during assembly.

A force torque sensor is an instrument used to measure force and/or torque. It can be used for a variety of applications, such as robotics, machine vision, control systems, and force feedback applications. Force torque sensors come in a variety of shapes and sizes, depending on the application they are intended for. They can be used to detect changes in force or torque, provide force feedback to a control system, and measure the force applied or transferred in an application.

Overall, force torque sensors are invaluable tools for measuring force and torque in industrial environments. They provide accurate force measurements and force feedback, helping improve productivity and safety in any application. By utilizing the right force torque sensor, companies can ensure they have access to the most reliable force measurements available.

If you cannot find an answer to your question in our 56 Micro Reaction Torque Sensor | For Small Range, Tight Spaces, you can always contact us and we will be with you shortly.

More Featured Torque Sensors For Sale

Sino-Inst is a manufacturer of 56 Micro Reaction Torque Sensor | For Small Range, Tight Spaces. We offer more than 10 types of Micro Reaction Torque Sensors. Micro Reaction Torque Sensors can measure a variety of different mechanical power, rotational speed and torque measuring devices.

Micro Reaction Torque Sensor is also called reaction static torque sensor, torque transducer. Mainly used for torque measurement in Static situations. Micro Reaction Torque Sensor, with flange connection at both end; suitable for samll static torque measurement.

Sino-Inst’s Micro Reaction Torque Sensors, made in China, have good quality, with better prices. Our Reaction Torque Sensors are widely used in China, India, Pakistan, USA and other countries.

Sino-Inst’s entire team is well trained, so we can ensure that each customer’s needs are met. If you need any help with your product requirements, whether it is a Micro Reaction Torque Sensor, level sensors, or other equipment, please give us a call.

Request a Quote

Please enable JavaScript in your browser to submit the form
56 Micro Reaction Torque Sensor | Small range, Tight Spaces

56 Micro Reaction Torque Sensor is a small range static torque sensor specially designed for small installation space. There are mounting flanges on the bottom of both ends. Small size, suitable for small and compact spaces. Low range static torque measurement, 0-0.1-20N.m optional. Applications include fastener testing, engine testing, automotive and aerospace engine testing, automotive brake testing, and prosthetic limb testing, among others.

Product SKU: 56 Micro Reaction Torque Sensor | For Small Range, Tight Spaces

Product Brand: Sino-Inst

Product Currency: USD

Product Price: 165

Price Valid Until: 2029-09-09

Product In-Stock: InStock

Editor's Rating:
5
This entry was posted in Torque Sensors by KimGuo11. Bookmark the permalink.

About KimGuo11

Wu Peng, born in 1980, is a highly respected and accomplished male engineer with extensive experience in the field of automation. With over 20 years of industry experience, Wu has made significant contributions to both academia and engineering projects. Throughout his career, Wu Peng has participated in numerous national and international engineering projects. Some of his most notable projects include the development of an intelligent control system for oil refineries, the design of a cutting-edge distributed control system for petrochemical plants, and the optimization of control algorithms for natural gas pipelines.