1.Garantta GPS-LT61/GPS-LT81 through-beam photoelectric sensor is a high-performance infrared sensor featuring a sensing distance of 1-30M
2. It includes advanced circuit protection (reverse connection, short circuit, and surge protection)
3.Operates within a wide temperature range (-25°C to 80°C)
4.Its robust design with an IP67 rating ensures durability in demanding environments such as automotive, logistics, and printing industries
5. With primary exports to the United States, UAE, and Argentina and a positive review rate of 98.5%
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Description
Technical Parameters
Size & Wiring
Garantta GPS-LT61 / GPS-LT62, Long Range Laser Sensor adopts a square structure design and includes four detection modes: diffuse reflection, mirror reflection, through-beam, and ranging. The through-beam detection distance reaches 30 meters. It is equipped with an ambient light suppression function to effectively block interference from external light sources, and is equipped with a high-brightness light spot and multi-directional visible indicator lights for on-site diagnosis. The product is suitable for detecting objects with bright, dark or inclined surfaces, and supports precise positioning and small parts recognition.
Product Features
1. Ambient light suppression effectively eliminates interference from surrounding light sources.
2. Up to 30m for through-beam detection and 8m for diffuse reflection detection.
3. High-brightness beam spot and visible indicator lights from all sides for easy diagnosis.
4. Accurately locate and inspect small components.
5. Effectively detect objects with bright, dark, and tilted surfaces.
Applications
Long Range Laser Sensor Applied in processes such as painting, welding, assembly, and engine production lines for position detection and distance measurement. The distance measurement product has a detection range of up to 30m and can directly locate the object without a reflector. It offers advantages such as accurate positioning, high reliability, and immunity to external light sources.
FAQ
1. Long Range Laser Sensor Adjustment Knob
The photoelectric sensor adjustment knob is primarily used to adjust parameters such as detection distance and sensitivity. Adjustment methods may vary between models. The following are common adjustment methods:
Sensitivity Adjustment
Turning the sensitivity knob changes the Long Range Laser Sensor's response speed to changes in light signals. Turning it clockwise increases sensitivity, while turning it counterclockwise decreases it.
Detection Distance Adjustment
Some photoelectric sensor models feature a measurement range adjustment knob, which you can use to set the detection distance or object size. For example, the E3Z series sensors use the sensitivity knob to adjust the distance. Be careful not to turn the knob too hard to avoid exceeding the calibrated maximum/minimum range.
Output Mode Switching
The action switch changes the output trigger mode (light-on/light-off). Control the force when turning the knob to avoid exceeding the L/D range and causing product malfunction.
Precautions
It is recommended to be gentle when adjusting to avoid damaging the knob or casing due to excessive force.
The knob's function may vary between brands/models. Please refer to the specific product manual.
2. Why are Long Range Laser Sensor prone to failure during adjustment?
Photoelectric sensors are susceptible to damage primarily due to the following:
Physical Damage
External impacts (such as collisions and scratches) or natural disasters (such as hail or storms) can damage sensor components, typically requiring replacement of the entire assembly.
Circuit Faults
Short circuits, breaks, or poor contact can interfere with signal transmission, requiring inspection and repair.
Environmental Factors
High temperatures, high humidity, or highly corrosive substances can accelerate component aging, and prolonged exposure can shorten service life.
Long-term Use
Natural aging of components can lead to performance degradation, typically manifesting as unstable signals or decreased sensitivity.
Improper Maintenance
Failure to clean the sensor surface (e.g., due to dust) or not installing a protective cover can accelerate damage.
It is recommended to regularly check the sensor's condition, avoid use in harsh environments, and select accessories compatible with the device for maintenance.