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LA - PRECISION DUAL SHEAR LOAD PIN
APPLICATIONS
- Tension/Compression Measurements
- Clevis Pin/Shackle Loading
- Crane, Lifting & Winch System
- Mooring Line Tension Measurements
- Sprockets & Pulley Axle
FEATURES
- 5,000 to 200,000 lbs. Capacities
- Dual Shear Beam Technology
- Stainless Steel Construction
- Application Versatility
- 0.5% Accuracy Class
- Excellent Overall Performance
- IP67 Environmental Sealing
- Non-Standard Configurations
- Two Year Warranty
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Load Pin Transducers (also known as Shear Pin Sensors) measure loads using a strain gage element sensitive to shear loads. Using a laboratory calibration traceable to NIST, shear strain is related to load. Typical sizes range from 5/8 inch to 3.5 inch diameter. Two-component output is available for applications where loads are in the X & Y planes.
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The load pin works according to the strength measuring principle on a transverse basis to the longitudinal axis.
The SB-32 was developed especially for strength measuring at traversing wheels, can be, however, used also at pulleys, cranes, lifts or other mechanical force measurement on working platforms.
It is executed as a stretching bolt with two clipping chases. Crossways chase is it fixed or the like on a side by a diameter extension and on the other side by two for the mounting device of locking plates against slipping axially. Other safety device for example bags drillings, on enquiry. A side is flat to the protection from twisting and to the identification of the strength introduction.
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Magtrol Load Measuring Pins are temperature-compensated transducers used to measure load and force and provide overload protection. The pins are mounted into machines in place of normal shafts and fitted with strain gauges, allowing them to produce a signal proportional to the measured load.
Features:
From 2.5 to 1250 kN (0.28 to 140 tons)
Admissible overload: 150% of the nominal load
Overload at rupture: 350% to 700% of nominal load (according to the model)
Pin made of high resistance stainless steel.
Insensitive to external mechanical and chemical effects (strain gauges inside the pin)
Ideal for use in hostile environments
Rugged and tight construction; maintenance-free
For new or refitted installations
ISO 9001 Certified
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SENSY is one of the most experimented companies in the load limitation for hoisting devices business, because of its 20 years experience in this field of activity. This is why we offer one of the largest product range on the market with strain gauge technology load cells and load pins, electronic load limiters and displays and also dynamometric shackles and wedge sockets.
When it goes about setting in conformity a hoisting equipment, you think about load limitation equipment for production or expedition department overhead cranes (EOT), harbour cranes, … We talk then about heavy loads, Crane classification (FEM) and big investments. Men think that hoisting devices for smaller capacities do not deserve such investment. Therefore, we have developed a range of load cells and electronic load limiters for lower capacities hoisting equipments. We talk about load cells with fast and easy implementation combined with load limitation electronic with 1 or 3 set points. A cost effective solution for equipping your low and medium capacity overhead crane.
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SS2
Range ±30grams, 12mV/V output
The SS2-3 load cells have been designed for applications where precision measurement of extremely low forces is required. They are based upon
bonded semi-conductor strain gauge technology, conferring excellent sensitivity and eliminating the fragility associated with unbonded strain gauge types.
The design features excellent immunity to the effects of eccentric loading, side loading and bending moments.
Forces may be applied either in tension or compression and alternative loading adaptors are available. The low deflection and consequent high frequency response ensures that the unit is suitable for measuring peak and transient forces.
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Strain Measurement Devices provides a seemingly infinite variety of sensors to accurately measure force, pressure, acceleration, and other physical parameters. Approximately 90% of SMD products are custom designed, these sensors meet the more specialized needs of OEM's. SMD's Peerless engineering team designs sensors for unique requirements and aggressive cost targets. Typical specialized requirements include small sizes, high temperature, low capacities, “Cenelec” dielectric, and overload proof sensors. SMD's familiarity, especially with state-of-the-art medical products, has led to the development of complete, value-added, SMD produced subassemblies, which incorporate one or more sensors, signal conditioning, electronics, and other features.
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This Low Profile Tension & Compression Load Cell has high accuracy. It has Nonlinearity of ±0.1%, Deflection of 0.003" nominal and Operating temperature of -60° F to +200° F. The standard LRF300 Low Profile Tension & Compression Load Cell can be modified or customized to meet your requirements and most capacities are in our inventory, making them available for 24 hour shipping. Similar to our entire Load Cell product line this model is manufactured in USA and uses metal foil strain gauge technology.
Product Highlights:
Light Weight
Low Deflection
2024 Aluminum Construction
In both Tension & Compression
Low capacity applications
Utilizes Metal Foil Strain Gauge Technology
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APPLICATIONS:
The low profile load cell type 142 can be used in small,
medium and high loading capacity weighing systems.
Some applications are:
- Weighing in hoppers, tanks, silos, etc.
- Weighing platforms
MAIN FEATURES:
- Water-proof
- Side load high resistance
- Stainless steel
- Soldered with microplasma
- Standard nominal load from 500 to 100.000 kg
- High precision (equivalent to OIML C3)
NOMINAL LOAD: ton 0.5-1-2-5-7,5-10-15-20-30-50-100
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CTS02 Compression - Tension - Sensor
The Compression Tension Sensors CTS02 was developed for the precise measurement of large forces, acting in axial direction.
For this purpose, the outer ring is flanged to the mounting surface and the force passes into the centre bore.
Features
Low profile
Insensitive to off-center forces
For dynamic and static force measurement in compression-tension mode
Design with nickel plated surface
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Flat pressure force cell Type M-0061
Flat pressure force cells doses measure the pressure force in terms of the most different mechanical components.
Output: a) DMS
b) Current 4-20 mA
Options:
Pre-amplifier 4-20 mA built in
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LPD Low Profile Disk, High Capacity Load Cell
These load cells are constructed with high grade alloy steel and come complete with 20 foot load cell cable. The LPD are available in capacities ranging from 5,000 lbs. up to 100,000 lbs. and are designed for low profile scales/applications.
Load Cell Technology
- Simplifies load measurements
- Meets OIML and HB44 Class III Standards
Rugged & Reliable
- High Grade Alloy Steel construction
- Mechanically robust design
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SMD can manufacture a load cell or force sensor to measure anything, even something as complex as the human eye! Our load cells are designed and manufactured using our own proprietary thin film strain gauge process for greater stability and accuracy. Our load cell applications include weighing scales, non-invasive medical sensors, pharmaceutical testing, aerospace and industrial measurements. Whether you need an "off the shelf" load cell or custom engineered load-cells, let SMD design an ultra low profile, button style or overload proof sensor for you. We are the world leader in miniature load cells and low profile load cells.
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The INHECO Measurement Plate (IMP) is a compact and precise measurement tool in SBS format for verifying the temperature and / or shaking performance of INHECO's heating, cooling, incubation and shaking devices used in Lab Automation applications.
The cordless design allows a flexible use of the IMP, even measurements in closed systems, e.g. incubators are possible. The IMP can be handled by all common gripper systems which gives the opportunity to automate the whole verification / validation process.
Data Storage
The measurement data are stored on an internal EEPROM and can be transferred via USB or built-in IrDA interface to an external PC for evaluation and analysis. To enlarge the data storage capability, the IMP can be equipped with an additional μSD memory card. The measurement profile can be easily pre-adjusted for each run, by connecting the IMP via interface to the INHECO IMP software. Parameters like "measurement duration", "scan interval forsensors", etc.can be set and adjusted individually.
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FemtoTools sensors are highly precise and highly productive force sensing tools, which can measure forces down to nanonewton (10-9).
Conventional force sensors are usually based on strain gauges and can only measure forces down to milli-Newton (10-3). Our FT-S270 and FT-S540 are produced in a special manner, which is already successfully used in the IC industry, and allows to operate (work) in a unique (an unreached) force sensing range between the atomic force microscope (AFM) and conventional force sensors.
The individual calibration of the FT-S270 and the FT-S540 force sensors guarantees a high measurement accuracy and readout speed. A calibration data sheet is delivered for each individual sensor.
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Smaller than a no. 2 pencil tip, this submergible micro-force transducer is ideal for medical research applications. The AIFP® is constructed from micro-machined stainless steel and heat treated to form an elliptical spring microstructure, which deforms elastically when loaded. This construction allows the device to accurately and reproduceably measure applied forces.
A quarter bridge strain gauge bonded to the structure provides a sensititve output, linearly proportional to force. The strain gauge's self temperature coefficient is matched to the stainless steel substrate to minimize the effect of temperature on probe output. The elliptical cross section and 3-conductor flat tape cable keep the device anchored and oriented within fibrous materials. In addition, bridge completion resistors are included in the AIFP's® integral connector.
For implantation, a trocar and slotted cannula are used to bury the transducer within the tissue substance. A suture may be placed in an aperture located in the wall of the probe to facilitate probe removal. The AIFP® is coated with high temperature polyimide and parylene coatings for protection against moisture and saline solutions.
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We have a comprehensive range of general purpose and specialist force cells including low range precision sensors and high capacity force cells.
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Loadstar’s iLoad Mini load cell is based on the same Capacitive Technology as the iLoad and iLoad Pro load cells. However, it differs in one important respect–the Mini outputs a square wave whose frequency is proportional to the applied load. The Mini, the smallest load cell currently offered by Loadstar Sensors, is a small circular sensor with a diameter of just 1.25 in. and is available with either a threaded stud or a load button on top of the load cell. It has three threaded holes on the bottom of the sensor to easily mount the load cell with commonly available hardware.
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The ATI Multi-Axis Force/Torque Sensor system measures all six components of force and torque. It consists of a transducer, shielded high-flex cable, and intelligent data acquisition system, Ethernet/DeviceNet interface or F/T controller. Force/Torque sensors are used throughout industry for product testing, robotic assembly, grinding and polishing.
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The Torque Sensor comprises of three items: Rotor, Stator, and Power Pack/Digital
Readout & meets the requirements of relevant EU directives.
There are seven sizes of Torque Sensors, which are adaptable to suit most power transmission equipment where torque, power, speed or temperature needs to be constantly monitored.
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DATAFLEX®
* Complete solution for measuring torque and speed at low cost
* New patented measurement technique
* Very high signal bandwidth
* Maintenance-free, contactless
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The E200 ORT (Optical Rotary Torque) transducers provide an ideal means for precise dynamic measurement of rotary and static torque of less than 500Nm at high speed and high bandwidth.
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The technology for our 'TorqSense' RWT310/320 Series Torque Transducers is based on the patented technology of measuring the resonant frequency change of 'Surface Acoustic Wave' (SAW) devices in a non-contact manner when strain is applied to a shaft to which the SAWs are fixed. The applied torque causes a deformation of the quartz substrate of the SAW device, which in turn causes a change in its resonant frequency. Essentially the SAWs act as 'frequency dependent' strain gauges.
The frequency signal measuring the resonant frequency is coupled via a non-contact RF rotating couple from the shaft to a fixed pick-up and it is the analysis of the difference in resonant frequencies between the two SAW devices, with electronic processing and calibration, that gives a precise indication of the torque transmitted by the shaft. SAW devices have a high immunity to magnetic fields allowing their use in motors, for example, where other analog technologies are susceptible to electronic interference and are not suitable.
The use of this patented measurement technique results in a transducer being able to sense torque bi-directional, with fast mechanical and electrical responses. As the method is non-contact it has also complete freedom from brushes or complex electronics, which are often found in traditional torque measurement systems.
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The EFO is a fiber optic strain sensor especially designed to be embedded in concrete, ideal for composite material engineering research and civil-engineering applications such as monitoring stresses in structural members of buildings, bridges, tunnel linings and supports during and after construction.
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Benefit from the many new advantages of measuring with light - without having to abandon the ruggedness and convenience of the classical strain gage.
HBM's optical strain gages are made from fibers of glass with a very small core diameter of no more than 4 to 9 micrometers. In comparison, the diameter of human hair ranges from 60 to 80 micrometers. The fiber core is surrounded by a cladding layer from purest glass with a diameter of 125 micrometers.
HBM patented optical strain gages utilize proven technology, and are easy to work with. There is no difference in the handling of optical or traditional (electrical) types of strain gages. You don't have to learn new skills: Bonding, covering, connecting, etc. are all identical. The patented design protects the fiber and makes configuring your test setup quick and convenient. Benefit from both optical sensor technology and the wide range of accessories for electrical strain gages.
Best of both worlds: HBM's measurement technology enables the simultaneous acquisition of data using both electrical and optical strain gages. The EasyOptics module in HBM's catman®AP software enables you to jointly acquire and analyze data from different types of sensors.
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The forces which arise in industrial processes such a press-fit, punching or crimping often have implications for the quality of the final connection. Such forces can also be measured indirectly in terms of the strain occurring at the surface of the machine structure. This is often simpler than taking a direct force measurement, which requires the sensor to be built into the structure.
Kistler's new Type 9234A… strain transmitter with integral amplifier is fitted to the machine very simply by means of a single M6 screw. Thanks to its high sensitivity, accurate measurements are possible even with extremely rigid machine structures.
The robust transmitter is particularly suitable for use with presses and assembly line robots.
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Our range of Torque Transducers is designed for use in reaction type applications and they can also be used for some rotary applications.
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It is often the case that torque in a rotating shaft can be measured with a stationary, reaction torque sensor at some point in the powertrain. This is due to the existence of an equal and opposite force (torque) necessary to hold the drive and driven equipment in place.
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FLINTEC load cells are designed to meet the most stringent
accuracy requirements. Certifications have been obtained
from Weights & Measures Authorities, worldwide.
Shear Beam load cells are available in the capacities 200lb to 100.000lb and include Accuracy Classifications GP,
C1and C3 according to OIML R 60; NTEP nmax=5000.
They offer stainless steel construction making them suitable for use in toughest industrial environments.
The Flintec calibration technique (in mV/V/Ω) eliminates time consuming corner calibration in multiple load cell systems.
ATEX versions available.
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Shear Beam Load Cell
This single ended shear beam loadcell is designed for high capacity automatic filling machines It can be used in weighing platforms by the change of up side down.The body of LT-5C is contructed in hardened and nickel plated alloy steel .The cable joint and stainless steel covers sealed with Ip65 as well.
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Weight sensors, Force sensors, Torque sensors
