Did you know that Integro Technologies offers services that are more than just machine vision integration? We are VISION+.
Our staff has skills in Mechanical Design, PLC, Robotics, Motion, IT, HMI, Software and, of course, Machine Vision.
Drawing on this well of experience and capability, the end result is a cohesive, integrated system that is designed, manufactured, tested, commissioned, installed and supported for the customer’s maximum up-time on the line as well as and product quality control improvements.
From residential to industrial, these fittings are becoming common-place and offer peace of mind upon proper installation with lifetime guarantees.This customizable inspection machine offers full verification of part geometry and validation of O-ring placement and seating. Press-fit copper fittings are growing in market share for their ease of installation.
Our inspection cell ensures that each part matches the configuration specified by the operator as well as ensuring that each press-fit O-ring has been properly placed inside of the press-fit bead.
100% full part handling
Full part inspection
High-accuracy and customizable to client needs
On-site and remote support
The Raptor
Gauging accuracy of 0.01mmUtilizing a combination of software, optical, and ultra-high resolution image formation technology, The Raptor is the single solution for precision 2D and 3D measuring. Materials can be measured from a wide variety of industries including Aerospace, Automotive, Military, Medical, Plastics, and Electronics. The Raptor is designed with exceptional optical capabilities in a single system for efficiency, accuracy, and cost-effectiveness.
This 540-degree inspection of automotive filter mesh and injected molded assembly detects missing, broken, misshaped or flagging mesh, and plastic flash including dimensional analysis. Inspected parts are automatically sorted and collected in pass/fail bins.
Bowl-feeder transportation of parts to shuttle singulation at robotic pick station.
SCARA robot (x, y, z and full rotation) to pick then rotate part in front of line scan and 2D camera for inspection.
User interface that includes statistical data display of inspection results with part images and pass/fail criteria which allows for modification of tolerances.
This as a customized turnkey solution for your process to inspect 100% of your bead application. This solution eliminates manual, periodic bead inspection and provides a fully automated solution. Learn more.
Container Inspection
This application by Integro Technologies is a 360° inspection of ice cream containers.
Data matrix is utilized to read and validate correct carton regardless of orientation. Operator selects a recipe and the system uses that to validate the 2D matrix data.
Inspection of lid to determine if absent, present and correct lid for that type of ice cream
Recipe driven system that is managed by the end user
User management system allows them to add people to the system using their RFID badges
The system evaluates a glass jar with a 360-degree view for small cracks in the rim, cracks running along the side wall, cracks in the bottom, and foreign material such as cardboard and glass shards at 120ppm.
Foreign material and glass shard optical detection
system with masked jar bottom molded features to
eliminate false rejects
Automatic camera and image formation adjustments via
linear servos for various part configurations via a single
user interface
The camera positions as well as the trigger sensors are servo controlled to deal with differing diameters.
They move automatically by an intuitive recipe selection. Recipes are very easily added, modified, and
implemented
Custom stainless steel structure and backlit conveyor solution for installation into an existing production
line or a new production line
The system took two days to install and one day to test vision
The system was fully qualified and operational within 4 days
This round disk surface inspection is an ideal vision system for 360 part inspection. This is a small machine with big results. This vision solution was custom designed to reduce the takt time required for part inspection. Each part is presented to a rotary stand by use of a 2 axis robot. Once placed onto the rotary stand, each transmissional seal is inspected 360 degrees in 3D form and can be utilized to inspect for an array of items including manufacturing defects and part specific registration marking.
Cylindrical Bushing Internal Coating Verification and Dimensional Analysis System
This high speed, (300ppm) backlit, singulation, material handling, rejection tracking and verification system was designed for bulk feeding and orientation of 50 different sized part numbers with three (3) machine vision sensors.
Parts vary in height, diameter, flange size, and coating type and color
Automatic system adjustment via linear servos, VFD, and camera inspection programs
HMI allows for operator to select pre-programmed recipe for part features and/or create new product recipe for inspections
Part change over takes less than 30 seconds from inspection configuration manager
Two (2) inspection bins for various defect mode separation/sorting downstream of the three inspection points
Includes modified virtual motion axis tracking system and provides statistical data collection
Using a 2.2 micrometer-sensitive 3D laser mounted to a 3-axis robot, several high-definition images are acquired and combined to generate a 3D point cloud.
This 1GB image is generated using key corner points to overlay 3D data from scan-to-scan. Inspection consists evaluating 20,000 individual pin locations across each of 8 pin grid groups. Each pin is less than 100 square micrometers in size, and only 360 micrometers tall. In addition to planarity, the inspection checks for x-y location, rotation, and pin deviation to within 10 micrometers. This entire process occurs in 90 seconds.
This base system may be upgraded with any of the other SideWinder product configurations. The SideWinder offers a variety of inspection groups that may be applied in any combination with a default of 10 vision tools per given inspection group. The system has been developed with proven Cognex vision technology.SideWinder Label Inspection System is designed to perform 100% verification of printed text and graphics at high speeds. Our base package provides the ultimate in label rewind technology and surpasses the competition in every performance category.
Automatic web reversal upon detection of failed inspection
This system acquires images from 4-5 cameras, and combines/stitches the images together to create a seamless undistorted image of a cylindrical object’s surface. The OmniView completely eliminates the requirement to mechanically rotate parts to perform inspection tasks utilizing linescan imaging techniques.
Integro’s OmniView solution is ideal to satisfy the FDA’s pharmaceutical pedigree inspection requirements and part traceability applications. The technology can be applied to cylindrical and spherical objects.
Clam shelf design to expedite installation on existing material handling systems
Solid mechanics
Precision stages for rapid product change over and installation
Proven image acquisition platform
Mechanical fixturing for repeatable calibration procedure
Supports OCRMax
Customized HMI for customer inspection requirements
Eliminates material handling which could damage the product
The Tire Guardian is a combination of two different machine vision applications that can be used individually or in sequence to assure tire assembly quality from the most common non-compliance issues.The Tire Guardian allows the automotive industry to use the most reliable and cost effective inspection methods to adhere to DOT regulations, while improving the quality of the overall tire assembly.
The first machine vision application is the DOT & Bead Seam Reader, which recognizes (OCR), verifies (OCV) & documents all DOT information located on the sidewall of the tire. Within 15 seconds, the profile sensor projects a laser light across the surface of an automobile tire profile from the bead toward the tread. When the profile sensor is applied to the bead area of a rotating tire the sensor digitizes the circumferential band that contains the DOT Code, Mold Code, E-Mark Code, or other molded-in features.