List of Laser Components products
- classification:Laser Components
46~90 item / All 1169 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Strong cold wind from room temperature to -13°C! Depending on the usage environment, you can choose between the combo type or the separate type!
- Cooling system
April 10, 2024 (Wednesday) to April 12, 2024 (Friday) Notice of Participation in Nagoya Manufacturing World 2024
Sanwa Shiki Ventilator Co., Ltd. will be exhibiting at the 2024 Monozukuri World (Nagoya) held at Port Messe Nagoya. We will also be showcasing our large cooling fans and cool/warm ambient products. Date: April 10, 2024 - April 12, 2024 Opening: 10:00 AM Location: Nagoya Port Messe (Exhibition Hall 1) *Our booth: 19-1 We would be grateful if you could visit us if you have the time.
This is a high-precision, compact, and lightweight laser distance sensor manufactured by Dimetix, suitable for knowing the seat positions, widely used from theaters to arenas.
- Laser Components
Retrofit existing cranes with laser distance sensors to digitalize crane position information, coordinate the factory, and reduce collisions and transportation time.
- Laser Components
- crane
- Distance measuring device
The position and displacement of refractory bricks can be measured with a laser distance sensor with an accuracy of ±1mm. This allows for precise understanding of the timing for replacement, contribut...
- Laser Components
In high-temperature environments around 1000℃, various dimensions of steel can be measured with an accuracy of ±1mm. The position of the blast furnace bricks can also be measured. This contributes to ...
- Laser Components
A laser distance sensor was retrofitted to the overhead crane to measure position information on the X and Y axes, enabling collision avoidance control through coordinate management. Position informat...
- Laser Components
It is possible to measure the thickness of blooms near a high temperature of 1,000°C at the steel mill using multiple laser distance sensors in a non-contact manner.
- Laser Components
It is often seen that 2 to 3 laser distance sensors are used for measuring internal tunnel displacement. We highly recommend using high-precision, compact, and lightweight sensors.
- Laser Components
By using a laser distance sensor to measure the deflection of the iron bridge, the health of the shoe (bearing) can be determined.
- Laser Components
When placing beams using the bent method, a small 1mm precision laser distance sensor is suitable for measuring subsidence. It measures the distance from the bent to the ground.
- Laser Components
Even in the harsh measurement environment of ultra-high temperature molten liquid at 1500°C, it is possible to achieve a measurement error of ±1mm by placing the laser distance sensor at a distance.
- Laser Components
By using a laser distance sensor for measuring the deflection of the iron bridge, the health of the shoe (bearing) can be determined.
- Laser Components
There are many cases where laser distance sensors are used for measuring bridge deflection. We highly recommend using high-precision, compact, and lightweight sensors.
- Laser Components
By leveraging the high response capability of the laser distance sensor (up to 250 data points per second), the health of the shoe (bearing) can be determined.
- Laser Components
The accuracy is specified at 2σ (±1mm), which indicates that 95.4% of the measurement results fall within the specification range, even when measuring a distance of 100 meters.
- Laser Components
It is often seen that 2 to 3 laser distance sensors are used for measuring internal tunnel displacement. We highly recommend using high-precision, compact, and lightweight sensors.
- Laser Components
When transporting heavy objects, a ceiling crane can be equipped with an additional laser distance sensor to measure position information, enabling collision avoidance control through coordinate manag...
- Laser Components
By using high-precision laser distance sensors for the early detection of ceiling deformations in tunnels with beams, the number of total stations can be reduced.
- Laser Components
By installing a laser distance sensor on the bridge, it is possible to regularly measure the changes in deflection caused by vibrations from passing cars and large trucks.
- Laser Components
This is a high-precision, compact, and lightweight laser distance sensor manufactured by Dimetix, suitable for industrial applications such as production processes, automated warehouses, steel-related...
- Laser Components
Would you like to automate the manual measurement tasks around the shield machine using a laser distance sensor and achieve ICT integration?
- Laser Components
When transporting heavy objects, use a laser distance sensor instead of an encoder to measure and control the positional information on the X-axis/Y-axis within 50-100m.
- Laser Components
It is a single-frequency CW laser. It offers a wavelength of 606 nm and 2 W, proposing power levels that are impossible with diode lasers.
- Laser Components
It is a single-frequency CW laser. It can propose power levels that are impossible with diode lasers.
- Laser Components
It is a nanosecond pulse laser with a wavelength of 355nm in the ultraviolet range. It is a model with a pulse energy of 1mJ at 3kHz. We offer it at a low price.
- Laser Components
It is a polarization-maintaining fiber output, Littman/Metcalf configuration, and a blue wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, blue wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, near-infrared wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components