LJ-X Lazer Profil Ölçüm Sensörü

Tüm Hedefleri Yüksek Hassasiyetle Ölçün

Yüksek Çözünürlüklü Hat İçi Ölçüm

• Ultra yüksek hassasiyet
• Her tip malzeme ile uyumlu
• 3 adımda kolay kurulum

Teknik Özellikler

Dokümanlar

Demo / Test Talebi
2D/3D Lazer Profil LJ-X8000 Serisi

2D/3D Lazer Profil Ölçüm Sensörü
LJ-X Lazer Profil Ölçüm Sensörü

LJ-X Lazer Profil Ölçüm Sensörü ile 2D/3D ölçüm ve denetim gerçekleştirin. Çok yönlü lazer profil sensörü, 3200 nokta/profil sunarak herhangi bir şekli veya malzemeyi yüksek çözünürlüklü görüntüler ile kararlı bir şekilde ölçer. LJ-X Lazer Profil Ölçüm Sensörü dört farklı kontrolcü opsiyonuyla uyumludur ve kullanıcıların sistem kapasitesini herhangi bir uygulama gereksinimiyle mükemmel şekilde hizalayan bir kurulum seçmesine olanak tanır. 

Maksimum lazer çizgi genişliği 720 mm’nin (28 inç) üzerine çıkar ve daha da büyük hedefleri taramak için birden fazla eşleştirilebilir. Bu yüksek performanslı lazer profil sensörlerin programlanması üç basit adımda tamamlanır, bu da her deneyim seviyesinden kullanıcı için doğru hat içi 3D ölçümü erişilebilir hale getirir.

Entek’e Sor |   +90 850 201 41 41

2D/3D Lazer Profil Terminal Eğimi ve Yükseklik Ölçümü

Kaynak Kalite Kontrolü 

2D/3D Lazer Profil Terminal Eğimi ve Yükseklik Ölçümü

Terminal Eğimi ve Yükseklik Ölçümü

2D/3D Lazer Profil 360° Yüzey Kontrolü

360° Yüzey Kontrolü

2D/3D Lazer Profil Terminal Yükseklik Ölçümü

Terminal Yükseklik Ölçümü

Özellikler

4x Daha Fazla Çözünürlük ile Güvenilirliği Artırın

Bir hedefin gerçek şeklini yakalamak, güvenilir denetimler gerçekleştirmek için kritik öneme sahiptir. LJ-X Lazer Profil Ölçüm Sensörü LJ-X8000 Serisi, 3200 nokta/profil ile hedefin şeklini yüksek çözünürlükte yakalayarak hat üzerinde doğru ölçüm yapılmasını mümkün kılar.

Geleneksel
Lazer Profil Ölçüm Sensörü Geleneksel

• Taslak
• Düzensiz
• Yüzeye bağlı

LJ-X8000
Lazer Profil Ölçüm Sensörü LJ-X8000

• Detaylı
• Tutarlı
• Her yüzeyde stabil

Yüksek Hassasiyet 3200 nokta/profil

Lazer Profil Ölçüm Sensörü LJ-X8000 Yüksek Hassasiyet

En Üst Seviyede Çözünürlük ve Hata Tespiti

Sensörün çözünürlüğünü iyileştirmek için CMOS üzerindeki piksel sayısının artırılması gerekir. Bu, her bir pikseli daha küçük hale getirerek gerçekleştirilebilir; ancak daha küçük pikseller yetersiz ışık algılamasına neden olarak bazı hedeflerde hatalı profile yol açabilir.  LJ-X Lazer Profil Ölçüm Sensörü için, herhangi bir hedef üzerinde yüksek çözünürlüklü ölçüm yapabilen bir lazer profil sensörü oluşturmak üzere yeni bir teknoloji uygulanır.

Silindirik Lens

Profil Ölçüm Sensörü Silindirik Lens

Paralel ışık, yansıyan ışığın hedefin yüzeyi boyunca dağılmasını önlemek için tasarlanmış silindirik bir lens kullanılarak yayılır. Bu, herhangi bir şekil veya yüzeyden güvenilir yansımalar oluşturur.

Geniş diyaframlı alıcı Lens

Profil Ölçüm Geniş diyaframlı alıcı Lens

Sensör, geleneksel modellere göre 3 kat daha fazla alana sahip olan ve alınan ışık yoğunluğunu artıran bir alıcı lens ile donatılmıştır. Bu, sensörün her ortamda istikrarlı profiller üretmesini sağlar.

Yüksek Çözünürlüklü CMOS

Profil Ölçüm Yüksek Çözünürlüklü CMOS

Bu yeni geliştirilen CMOS, 3200 nokta/profil kullanarak yüksek çözünürlüklü ölçüm sağlarken, farklı yansıtma özelliklerine sahip hedeflerde gelişmiş görüntüleme kabiliyeti sunar.

Profil Hizalama Fonksiyonu

3D görüntü oluşturulurken, her 2D profilin konumu X, Z ve θ eksenlerinde ayarlanır. Bu, titreşim ve eksantrikliğin yanı sıra hedefteki bükülme ve eğriliğin etkisini ortadan kaldırarak denetim için en uygun görüntüyü oluşturur.

Keyence LJ-X8000 Profil Hizalama Fonksiyonu
Keyence LJ-X8000 Profil Hizalama Fonksiyonu
Her Türlü Uygulama Gereksinimini Karşılamak Üzere Tasarlanmış Ürün Yelpazesinden Seçim Yapın

LJ-X Lazer Profil Ölçüm Sensörü, her sektörde kalite kontrolü ve süreç iyileştirmeyi desteklemek için geniş bir sensör yelpazesi sunar.

Keyence series_lj-x8000

İletişim

Keyence SR-X Demo Talebi

Teknik Özellikler

Model LJ-X8020
Reference distance 20 mm 0.79″
Measurement range Z axis (height) ±2.2 mm 0.09″ (F.S.=4.4 mm 0.17″)
X axis (width) NEAR side 7 mm 0.28″
Reference distance 7.5 mm 0.30″
FAR side 8 mm 0.31″
light source type Blue semiconductor laser
wavelength 405nm (visible light)
Laser class Class 2M laser product (IEC60825-1, FDA (CDRH) Part 1040.10 *1*2
output 10mW
Spot size Approx. 16 mm × 32 μm 0.63″ × 0.0013″ (reference distance)
Repeatability Z axis (height) 0.3 μm 0.000012″ *3*4
X-axis (width) 0.3 μm 0.000012″ *3*5
Linearity Z axis (height) ±0.05% of F.S. (±0.012%) *6
Profile data interval X-axis (width) 2.5 μm 0.000098″ (2 μm 0.000079″~) *7
Profile data count 3200 points
HDR (high dynamic range) Single-shot HDR *8
Laser irradiation position confirmation function Light source Blue LED (405 nm)
Temperature characteristic 0.01% of F.S./°C
Environmental resistance Enclosure rating IP67 (IEC60529) * 9
Ambient light Incandescent lamp: 10,000 lux or less * 10
Ambient temperature 0 to +45°C 32 to +113°F *11
Relative humidity 85% RH or less (no condensation)
Vibration resistance 10 to 57 Hz, double amplitude 1.5 mm 0.06″; 3 hours each for X, Y, and Z axes
Shock resistance 15 G / 6 msec
Material Aluminum
Weight Approx. 1000 g 2.20 lb
Model LJ-X8060
Reference distance 64 mm 2.52″
Measurement range Z axis (height) ±7.3 mm 0.29″ (F.S.=14.6 mm 0.57″)
X axis (width) NEAR side 15 mm 0.59″
Reference distance 16 mm 0.63″
FAR side 16 mm 0.63″
light source type Blue semiconductor laser
wavelength 405nm (visible light)
Laser class Class 2M laser product (IEC60825-1, FDA (CDRH) Part 1040.10 *1*2
output 10mW
Spot size Approx. 25 mm × 49 μm 0.98″ × 0.0019″ (reference distance)
Repeatability Z axis (height) 0.4 μm 0.000012″ *3*4
X-axis (width) 0.5 μm 0.000012″ *3*5
Linearity Z axis (height) ±0.04% of F.S. (±0.008%) *6
Profile data interval X-axis (width) 5 μm 0.000197″ (4 μm 0.000157″~) *7
Profile data count 3200 points
HDR (high dynamic range) Single-shot HDR *8
Laser irradiation position confirmation function Light source Blue LED (405 nm)
Temperature characteristic 0.01% of F.S./°C
Environmental resistance Enclosure rating IP67 (IEC60529) * 9
Ambient light Incandescent lamp: 10,000 lux or less * 10
Ambient temperature 0 to +45°C 32 to +113°F *11
Relative humidity 85% RH or less (no condensation)
Vibration resistance 10 to 57 Hz, double amplitude 1.5 mm 0.06″; 3 hours each for X, Y, and Z axes
Shock resistance 15 G / 6 msec
Material Aluminum
Weight Approx. 1000 g 2.20 lb
Model LJ-X8080
Reference distance 73 mm 2.87″
Measurement range Z axis (height) ±20.5 mm 0.81″ (F.S.=41 mm 1.61″)
X axis (width) NEAR side 30 mm 1.18″
Reference distance 35 mm 1.38″
FAR side 39 mm 1.54″
light source type Blue semiconductor laser
wavelength 405nm (visible light)
Laser class Class 2M laser product (IEC60825-1, FDA (CDRH) Part 1040.10 *1*2
output 10mW
Spot size Approx. 44 mm × 72 μm 1.73″ × 0.0028″ (reference distance)
Repeatability Z axis (height) 0.5 μm 0.000020″ *3*4
X-axis (width) 1.0 μm 0.000039″ *3*5
Linearity Z axis (height) ±0.04% of F.S. (±0.008%) *6
Profile data interval X-axis (width) 12.5 μm 0.0005″ (10 μm 0.0004″~) *7
Profile data count 3200 points
HDR (high dynamic range) Single-shot HDR *8
Laser irradiation position confirmation function Light source Blue LED (405 nm)
Temperature characteristic 0.01% of F.S./°C
Environmental resistance Enclosure rating IP67 (IEC60529) * 9
Ambient light Incandescent lamp: 10,000 lux or less * 10
Ambient temperature 0 to +45°C 32 to +113°F *11
Relative humidity 85% RH or less (no condensation)
Vibration resistance 10 to 57 Hz, double amplitude 1.5 mm 0.06″; 3 hours each for X, Y, and Z axes
Shock resistance 15 G / 6 msec
Material Aluminum
Weight Approx. 1100 g 2.43 lb
Model LJ-X8200
Reference distance 245 mm 9.65″
Measurement range Z axis (height) ±34 mm 1.34″ (F.S.=68 mm 2.68″)
X axis (width) NEAR side 64 mm 2.52″
Reference distance 72 mm 2.83″
FAR side 80 mm 3.15″
light source type Blue semiconductor laser
wavelength 405nm (visible light)
Laser class Class 2M laser product (IEC60825-1, FDA (CDRH) Part 1040.10 *1*2
output 10mW
Spot size Approx. 115 mm × 116 μm 4.53″ × 0.0046″ (reference distance)
Repeatability Z axis (height) 1 μm 0.000039″ *3*4
X-axis (width) 3 μm 0.000118″ *3*5
Linearity Z axis (height) ±0.04% of F.S. (±0.006%) *6
Profile data interval X-axis (width) 25 μm 0.0010″ (20 μm 0.0008″~) *7
Profile data count 3200 points
HDR (high dynamic range) Single-shot HDR *8
Laser irradiation position confirmation function Light source Blue LED (405 nm)
Temperature characteristic 0.01% of F.S./°C
Environmental resistance Enclosure rating IP67 (IEC60529) * 9
Ambient light Incandescent lamp: 10,000 lux or less * 10
Ambient temperature 0 to +45°C 32 to +113°F *11
Relative humidity 85% RH or less (no condensation)
Vibration resistance 10 to 57 Hz, double amplitude 1.5 mm 0.06″; 3 hours each for X, Y, and Z axes
Shock resistance 15 G / 6 msec
Material Aluminum
Weight Approx. 1200 g 2.65 lb
Model LJ-X8300
Reference distance 288 mm 11.34″
Measurement range Z axis (height) ±53 mm 2.09″ (F.S.=106 mm 4.17″)
X axis (width) NEAR side 134 mm 5.28″
Reference distance 72 mm 2.83″
FAR side 80 mm 3.15″
light source type Blue semiconductor laser
wavelength 405nm (visible light)
Laser class Class 2M laser product (IEC60825-1, FDA (CDRH) Part 1040.10 *1*2
output 10mW
Spot size Approx. 115 mm × 116 μm 4.53″ × 0.0046″ (reference distance)
Repeatability Z axis (height) 1 μm 0.000039″ *3*4
X-axis (width) 3 μm 0.000118″ *3*5
Linearity Z axis (height) ±0.04% of F.S. (±0.006%) *6
Profile data interval X-axis (width) 25 μm 0.0010″ (20 μm 0.0008″~) *7
Profile data count 3200 points
HDR (high dynamic range) Single-shot HDR *8
Laser irradiation position confirmation function Light source Blue LED (405 nm)
Temperature characteristic 0.01% of F.S./°C
Environmental resistance Enclosure rating IP67 (IEC60529) * 9
Ambient light Incandescent lamp: 10,000 lux or less * 10
Ambient temperature 0 to +45°C 32 to +113°F *11
Relative humidity 85% RH or less (no condensation)
Vibration resistance 10 to 57 Hz, double amplitude 1.5 mm 0.06″; 3 hours each for X, Y, and Z axes
Shock resistance 15 G / 6 msec
Material Aluminum
Weight Approx. 1200 g 2.65 lb
Model LJ-X8400
Reference distance 380 mm 14.96″
Measurement range Z axis (height) ±60 mm ±2.36″ (+95 to -220 mm +3.74″ to -8.66″ *12) (F.S.=315 mm 12.40″)
X axis (width) NEAR side 180 mm 7.09″ (163 mm 6.42″ *12)
Reference distance 210 mm 8.27″
FAR side 240 mm 9.45″ (320 mm 12.60″ *12)
light source type Blue semiconductor laser
wavelength 405nm (visible light)
Laser class Class 2M laser product (IEC60825-1, FDA (CDRH) Part 1040.10 *1*2
output 10mW
Spot size Approx. 275 mm × 249 μm 10.83″ × 0.0098″ (reference distance)
Repeatability Z axis (height) 5 μm 0.000197″ *3*4
X-axis (width) 10 μm 0.0004″ *3*5
Linearity Z axis (height) Reference distance: ±60 mm ±2.36″ ±0.025% of F.S. (±0.003%)
Total range: ±0.035% of F.S. (±0.005%) *6
Profile data interval X-axis (width) 275 μm 0.0030″ (50 μm 0.0020″~)
100 μm 0.0039″ (50 μm 0.0020″~) *12 *7
Profile data count 3200 points
HDR (high dynamic range) Single-shot HDR *8
Laser irradiation position confirmation function Light source Blue LED (405 nm)
Temperature characteristic 0.01% of F.S./°C
Environmental resistance Enclosure rating IP67 (IEC60529) * 9
Ambient light Incandescent lamp: 10,000 lux or less * 10
Ambient temperature 0 to +45°C 32 to +113°F *11
Relative humidity 85% RH or less (no condensation)
Vibration resistance 10 to 57 Hz, double amplitude 1.5 mm 0.06″; 3 hours each for X, Y, and Z axes
Shock resistance 15 G / 6 msec
Material Aluminum
Weight Approx. 1300 g 2.87 lb
Model LJ-X8900
Reference distance 980 mm 38.58″
Measurement range Z axis (height) ±400 mm 15.75″ (F.S.=800 mm 31.50″)
X axis (width) NEAR side 300 mm 11.81″
Reference distance 510 mm 20.08″
FAR side 720 mm 28.35″
light source type Blue semiconductor laser
wavelength 405nm (visible light)
Laser class Class 2M laser product (IEC60825-1, FDA (CDRH) Part 1040.10 *1*2
output 10mW
Spot size Approx. 622 mm × 566 μm 24.49″ × 0.0223″ (reference distance)
Repeatability Z axis (height) 10 μm 0.0004″ *3*4
X-axis (width) 25 μm 0.0010″ *3*5
Linearity Z axis (height) Near~reference: distance ±0.015% of F.S. (±0.004%)
Total range: ±0.05% of F.S. (±0.006%) *6
Profile data interval X-axis (width) 225 μm 0.0089″ (100 μm 0.0039″~) *7
Profile data count 3200 points
HDR (high dynamic range) Single-shot HDR *8
Laser irradiation position confirmation function Light source Blue LED (405 nm)
Temperature characteristic 0.01% of F.S./°C
Environmental resistance Enclosure rating IP67 (IEC60529) * 9
Ambient light Incandescent lamp: 10,000 lux or less * 10
Ambient temperature 0 to +45°C 32 to +113°F *11
Relative humidity 85% RH or less (no condensation)
Vibration resistance 10 to 57 Hz, double amplitude 1.5 mm 0.06″; 3 hours each for X, Y, and Z axes
Shock resistance 15 G / 6 msec
Material Aluminum
Weight Approx. 1600 g 3.53 lb

Ek Bilgi

  • *1 Classification performed based on IEC60825-1 in accordance with FDA (CDRH) Laser Notice No. 56.
  • *2 Do not view the beam directly using optical instruments (such as eye loupes, magnifiers, microscopes, telescopes, or binoculars). Observing the laser output using optical instruments is dangerous and may damage the eyes.
  • *3 Values measured by averaging 4096 times at the reference distance.
  • *4 The measured target is a KEYENCE standard target. Value when the average height of the default setting area is measured with height and position tools. All other settings are default values.
  • *5 The measured target is a pin gauge. Value when the point of intersection for the pin gauge rounded surface and edge level is measured using height and position tools. All other settings are default values.
  • *6 Profile data when measured by smoothing 64 times and averaging 8 times. All other settings are default values. Values inside parentheses are representative examples of averages for all profile data.
  • *7 The profile data interval can be changed. If changed, the measurement range in the X direction will also change.
  • *8 A characteristic that allows for stable, high-precision measurement with a single capture (exposure) at all levels of reflectance, from black (low) to glossy surfaces (high).
  • *9 The value when a head cable (CB-B*) or extension cable (CB-B*E) is connected. Does not include CB-B**L connection.
  • *10 When measuring white paper, illuminance on the sensor head receiving surface when light is applied to white paper.
  • *11 The head needs to be mounted to a metal plate to be used.
  • *12 When range is extended.

Ölçüm Nedir?

Webinar: Sensörler gelişen performanslarıyla büyülüyor

2D Profilers give width, height, and volume of sealant beads inline without touching a part.

2D/3D Laser Profiler
LJ-X8000 series

Conventionally, a vision sensor was used for OK/NG judgment based on the area. Since the LJ-X8000 Series can measure the volume and position of paste application, it can reduce material costs and support higher component densities.

2D/3D Laser Profiler
LJ-X8000 series

Check the tilt of the elements after bonding. The CL-3000 Series uses the multi-color confocal method that enables coaxial measurement. No matter whether the target surfaces are specular or rough, they can be measured in the same setting, which achieves easy and highly accurate inspection.

Ultra Confocal Displacement Sensor
CL-3000 series

High-speed sensors can measure runout of brake discs, regardless of surface finish.

Confocal Displacement Sensor
CL-3000 series

Measure the extent of foil vibration just before the slit. Even if the target is tilted due to vibration, the good angle characteristics of the CL Series enable stable measurement.

Confocal Displacement Sensor
CL-3000 series

A sensor is placed above and below a target to measure the thickness of anything in-between. This non-contact method can be used for measuring the thickness of any material and can be used in process or for offline inspection.

Confocal Displacement Sensor
CL-3000 series
-

Ultra-compact ø8 mm heads make it possible to install multiple heads in narrow spaces. This reduces the amount of work spent designing equipment and the number of parts that need to be purchased to measure multiple points in close proximity.

Confocal Displacement Sensor
CL-3000 series

Check step heights on machined parts without influence from oil or other surface contamination.

High-Accuracy Digital Contact Sensor
GT2 series

Measure many points on an engine with a multi-point laser system for accurate characterization of engine vibration. With ultra-highspeed sensors, even the smallest vibrations can be detected.

Ultra High-Speed/High-Accuracy Laser Displacement Sensor
LK-G5000 series

Measure the position and edge flutter of a belt with two 2D laser profile sensors for stable measurement.

2D/3D Laser Profiler
LJ-X8000 series

Residual vibration measurement is used to determine how much a robot shakes after stopping. When working with a welding torch or other tool, the measurement location may not always have a flat surface. Using a 2D laser profiler enables accurate measurement on a wide range of surface shapes.

2D/3D Laser Profiler
LJ-X8000 series

Opposing 2D profilers can scan multiple points of thickness over a part. This allows stable thickness measurement even on rough surfaces.

2D/3D Laser Profiler
LJ-X8000 series

High-speed thrubeam sensors can measure runout and ovality of rotors accurately and repeatably.

High-speed optical micrometer
LS-9000 series

Measure roller runout using confocal sensors for high stability on reflective surfaces.

Confocal Displacement Sensor
CL-3000 series

Thrubeam micrometers allow for high-speed measurement of wire OD without being affected by vibration.

High-speed optical micrometer
LS-9000 series

2D thrubeam sensors can measure hole diameter after stamping inline.

Telecentric Measurement System
TM-X5000 series

The Telecentric Measurement System uses 2D images of a target's silhouette to measure diameter. Target misalignment or tilt is automatically corrected for, making it simple to get accurate measurement without perfect fixturing.

Telecentric Measurement System
TM-X5000 series

Compressible or rough surfaces can be accurately measured using the 2D image generated by the Telecentric Measurement System. Implementing non-contact measurement eliminates error due to part deformation and any variation in diameter due to surface texture can be averaged over to stabilize results.

Telecentric Measurement System
TM-X5000 series

Compressible or rough surfaces can be accurately measured using the 2D image generated by the Telecentric Measurement System. Implementing non-contact measurement eliminates error due to part deformation and any variation in diameter due to surface texture can be averaged over to stabilize results.

Telecentric Measurement System
TM-X5000 series

Using 2D measurement systems makes it possible to measure the minimum and maximum diameter on a target from a single captured image. The TM-X Series works by capturing the silhouette of a target using a telecentric optical system, so it can accurately measure objects of any material (including clear vials).

Telecentric Measurement System
TM-X5000 series

With an exposure time of just 100 µs, the Telecentric Measurement System can capture clear images of targets moving at high speed. This makes it an ideal solution for accurately measuring diameter inline.

Telecentric Measurement System
TM-X5000 series

With small sensor heads and a mirror fixture, confocal sensors can give an accurate measurement of pipe ID.

Confocal Displacement Sensor
CL-3000 series

High-speed laser displacement sensors can check for valve float without touching the valve head.

Ultra High-Speed/High-Accuracy Laser Displacement Sensor
LK-G5000 series

Measure fine details on touch panels regardless of surface finish with confocal sensors. With a beam spot of 3.5μm, even the smallest features can be measured.

Confocal Displacement Sensor
CL-3000 series

Check outer diameter on machined parts without influence from oil or other surface contamination.

High-Accuracy Digital Contact Sensor
GT2 series

High-speed laser displacement sensors can check for valve float without touching the valve head.

Ultra Confocal Displacement Sensor
CL-3000 series

Profile tire treads and sidewalls with multiple 2D laser profilers.

2D/3D Laser Profiler
LJ-X8000 series

Inspect for lamination misalignment after winding. With a minimum X-resolution of 2.5 μm 0.000098", the LJ-X8000 Series accurately measures the profile of each electrode.

2D/3D Laser Profiler
LJ-X8000 series

Provide feedback about disconnected locations in electrodes before lamination. Accurately acquire the profile of electrode terminals to perform high-accuracy inspection of edge locations.

2D/3D Laser Profiler
LJ-X8000 series

Measure the profile of a wafer edge. By selecting one of the inspection tools such as Height Difference/Width or Angle, users can start measurement easily. The high-resolution image capturing using 3200 points/profile achieves highly accurate profile measurement that was impossible with conventional methods.

2D/3D Laser Profiler
LJ-X8000 series

Film curvature and wrinkling measurements are performed using a blue laser with a maximum width of 720 mm. Measurement is possible even for transparent targets thanks to the wide dynamic range of the CMOS sensor.

2D/3D Laser Profiler
LJ-X8000 series

Measure the step height of features on a wafer after etching. With 3D interferometry, mirrored surfaces can be measured accurately.

3D Interference Measurement Sensor
WI-5000 series

Unlike triangulation sensors, interferometers can measure small parts in confined spaces without blind spots or unstable data.

3D Interference Measurement Sensor
WI-5000 series

Using 2D thrubeam sensors, medical balloons can be inspected inline at high-speed.

Telecentric Measurement System
TM-X5000 series

Measure small part dimensions inline with pattern projection measurement heads. Projection from both sides reduces dead zones.

Inline 3D Inspection
3D Vision series

With two thrubeam micrometers installed on either side of a film, we can get a width measurement and give film position, regardless of color or material.

High-speed optical micrometer
LS-9000 series

2D thrubeam sensors can measure the step height between a roller and a sheet to get a thickness measurement. Additionally, A second sensor can be added to get a width measurement.

Telecentric Measurement System
TM-X5000 series

A displacement sensor with an extremely small beam spot of just 3.5 µm can be used for accurate profile measurements of roughness and subtle shapes. 3D shape measurements are also possible through detailed scanning synchronized with the X-Y stage. Measurements with impressive angle characteristics are possible not only for opaque targets but also transparent targets and 3D shapes with mirrored surfaces.

Confocal Displacement Sensor
CL-3000 series

Confocal sensors do not have the dead zones characteristic of triangulation sensors, and can therefore measure into smaller and deeper holes more reliably.

Confocal Displacement Sensor
CL-3000 series

Measure the height of the equipment when adhesive is applied to glass. Utilizing the multi-colour confocal method measurement principle enables high-precision measurement whether the glass is transparent or opaque.

Confocal Displacement Sensor
CL-3000 series

2D Profilers can measure width, height, and volume of sealant beads inline, regardless of surface finish or color.

2D/3D Laser Profiler
LJ-X8000 series

Detect burrs arising on terminals after electrode slitting. With ultra-high-resolution 3200 points/profile measurement, the LJ-X8000 Series produces stable detection even for minute burrs.

2D/3D Laser Profiler
LJ-X8000 series

Profile measurement can be continuously performed on captured 3D shapes. This allows pass/fail criteria to be applied to maximum and minimum values over an area or period of time, making it possible to catch small defects in continuous processes.

2D/3D Laser Profiler
LJ-X8000 series

Free-form planes allow the system to pick up on deviations from the typical contour of a surface.This makes stable defect detection possible, even for targets with complex shapes.

2D/3D Laser Profiler
LJ-X8000 series

Highly accurate measurements can be made even when measuring targets with height differences or where the distance from the target to the camera could vary.

2D/3D Laser Profiler
LJ-X8000 series

2D laser displacement sensors can measure both width and height, allowing for panel gaps to be accurately measured, regardless of the surface finish or color.

2D/3D Laser Profiler
LJ-X8000 series

Detect chipping or dents in laser welded beads using 3D laser profilers. The measurement is unaffected by color or gloss of the weld, making inspection results stable through glare or bead shape variation.

2D/3D Laser Profiler
LJ-X8000 series

Using thrubeam sensors, roller position can be accurately measured at high line speeds.

High-speed optical micrometer
LS-9000 series

Targets with multiple materials can be captured in a single profile, allowing measurements to be made between glass and metal surfaces. The LJ-X Series is equipped to handle reflectances ten times higher than conventional products.

2D/3D Laser Profiler
LJ-X8000 series

For targets with different diameters, conventional vision systems often have a hard time focusing on the larger and smaller diameter areas at the same time. Measuring the height of the dents with a laser profiler makes it possible to inspect the whole surface at once.

2D/3D Laser Profiler
LJ-X8000 series

Measure the position and projection of connector terminals simultaneously. Conventionally, two measurement steps were required using an image processing system and a contact sensor. The LJ-X8000 Series can perform both inspections simultaneously. This achieves cost reduction by reducing the amount of installed equipment.

2D/3D Laser Profiler
LJ-X8000 series

3D inspection allows users to accurately detect whether components are properly seated in the assembly or if elements are tilted. Using a KEYENCE 2D/3D laser profiler with a blue laser ensures stable measurement, even for targets with varying materials.

2D/3D Laser Profiler
LJ-X8000 series

Robot teaching is used to ensure tools are set in the specified position. The 2D Telecentric Measurement System enables precise position feedback for end tools and other axial targets.

Telecentric Measurement System
TM-X5000 series

The laser profiler's wide field of view makes it possible to inspect multiple targets traveling on a conveyor belt together. 3D position correction can be used to identify and inspect each cookie within the measurement range, enabling accurate sorting to improve quality and eliminate waste.

2D/3D Laser Profiler
LJ-X8000 series

Measure the flatness of the terminals of power modules. The target is detected by its surface and the flatness is measured based on the reference plane calculated with the least squares fitting method. The errors caused by the tilted positions of targets can be canceled, which ensures accurate inspection.

2D/3D Laser Profiler
LJ-X8000 series

Angled mirrors can be used for measurement where installation space is limited. This setup enables position detection of tangent circle coordinates or intersection point coordinates as well as simultaneous shape and dimension verification for wafer notches.

Telecentric Measurement System
TM-X5000 series

Inspect motor height after powder welding using the LJ-X8000 Series. The 3D laser profiler provides reliable 100% inspection with its high speed and measurement stability.

2D/3D Laser Profiler
LJ-X8000 series

Measure transparent films and coatings with a single displacement sensor. Confocal sensors give an accurate thickness measurement from one side of transparent targets.

Confocal Displacement Sensor
CL-3000 series

In-line thickness measurements can be altered by roller eccentricity, wrinkles, or tension in the sheet. Up to 6 measurement points and 4 layers of clear film can be measured with a single controller.

Confocal Displacement Sensor
CL-3000 series

2D Profilers can measure width, height, and volume of sealant beads inline, regardless of surface finish or color.

2D/3D Laser Profiler
LJ-X8000 series

Check for press fit failure with contact displacement sensors.

High-Accuracy Digital Contact Sensor
GT2 series

Detect burrs arising on terminals after electrode slitting. With ultra-high-resolution 3200 points/profile measurement, the LJ-X8000 Series produces stable detection even for minute burrs.

2D/3D Laser Profiler
LJ-X8000 series

Profile measurement can be continuously performed on captured 3D shapes. This allows pass/fail criteria to be applied to maximum and minimum values over an area or period of time, making it possible to catch small defects in continuous processes.

2D/3D Laser Profiler
LJ-X8000 series

Free-form planes allow the system to pick up on deviations from the typical contour of a surface.This makes stable defect detection possible, even for targets with complex shapes.

2D/3D Laser Profiler
LJ-X8000 series

Highly accurate measurements can be made even when measuring targets with height differences or where the distance from the target to the camera could vary.