Software Revision & Modification
We are updating you current test benches
with our registered LabView / National Instrument, Beckhoff or Panasonic hardware and software.
We undertake the necessary modifications for the mechanical, hydraulic and electrical systems.
We convert the test benches compatible with test related to risk analysis and functional controls as well as the CE norms.
Consultancy and Training
For innovation, technological investment and R&D management,
we provide consultancy and training services and certify the participants for the use and maintenance operations for our test benches.
We support our customers from the project selection to the application and reporting phases for the European Union and local funding mechanisms.
Machine Vision
In production lines,
the multiple AI-supported industrial cameras that learn automatically from passing and failing samples, are connected, and share analyzed data with other cameras and production hardware guarantees 100% traceability of safety components for example.
Quality Control with Cobots
The abbreviation "cobot"
is derived from the term "collaborative robot." It can detect forces applied to its arms by means of torque sensors or by processing and estimating current signals located in its joints. This allows it to stop without causing harm when human limbs collide with its arms. Therefore, under certain conditions, it can work safely and in close proximity to humans without the need for safety fences or special sensors.
In the TMEX application,
a cobot is combined with an industrial machine vision camera. According to the scenario, the presence, type information, location, assembly, and strength of the parts comprising the seat are verified at the in-line quality control station.
Cobot products can be used for developing low-power versions of the ingress and egress test demos.
TMEX continues its R&D studies on intelligent clamping processes with cobots and the digitalization of CNC machine feed systems.
AI-Powered Quality Prediction
Using trends analysis, machine learning, and other AI tools,
especially in fatigue and lifecycle tests that take a long time, a prediction of future results with a short portion of the test is calculated. In accordance with these predictions, tests that are projected with high probability to fail are stopped, allowing big time savings in taking action to improve the sample product and development processes of the product.
To give an example, for a test that takes 8 months, 56 days, within 10% of that period, around 6 days, the sensor data is collected and the model parameters of the dynamical system function for the test sample is determined using iteration. After that, those parameters are applied to the inputs and the test results are compared to the passing criteria. By using this prediction methodology, if the deformation of the sample at the end of the test is projected to be above a certain level the software interface warns the operator, giving the R&D team an extra period of about 50 days to act early.
Virtual Reality & Twin
Our company's new original registered trademark METASENSUUM®
is beyond the Metaverse. To be one in perception.. Industrial design, appealing not only to the sense of sight but to all senses, is also progressing through the spinout phase to create a difference in the automotive, aerospace, defense, luxury goods, marketing, real estate, healthcare, and service sectors.
In this project of ours that started as demo, in the Quality Laboratories of Adient Bursa, which all of its testing stations are developed by TMEX, the designs of which a digital twin of them was developed during the pre-production stage were evaluated in a virtual space with a 1:1 scale using VR headsets.
The starting reference points of the virtual space in the VR headset and the empty, under construction lab space are first matched, and the orientational directions of the headset gets synchronized using the cameras on it. After initial calibration, the customer representative takes an end-to-end look at the designed laboratory filled with the testing stations and supporting hardware in 3D while touring the empty laboratory physically. The design seen by the customer representative in virtual space is streamed wirelessly to a television outside the laboratory. This war the same design perception is shared with the other officials. At the location of the windows in the physical space a video feed from the VR headset’s cameras is shown through the windows in the virtual space allowing physical and virtual space matching.
3D Prototype
During the pre-production designing stage,
miniature prototype prints are produced using a fast multi-color 3D printer the has a large printing surface and is equipped with digital sensors available at TMEX allowing the evaluation of the design with a tangible object. This is gaining popularity, especially in projects intended for mass production, for making pre-final mold prototype to lower costs.
An other use for 3D printers is creating a custom protective case for hardware such as custom made electronic cards (PCB) in situations where a high force is experienced and the risk of getting broken is unacceptable.
As a secondary business line, fast facial scanning and colored printing within the scope of VR headset demo scenarios will be examined in our new company in the coming period.
Custom Test Services
We provide custom test services for
1. Static force endurance,
2. Life and fatigue tests,
3. Crash and energy dissipation,
4. Other custom test scenarios
The tests carried out in our company and workshop can be approved by 3rd party laboratories.
The requested tests can be monitored via the focused cameras in your office or on your mobile phone.
Test Auxiliary Devices
for ECE R14, R80, R17, R21
related and other test benches,
we manufacture auxiliary devices.
The dimensional and other physical / chemical properties of our test devices are reported and validated by Turkish and other institutions approved by the European accreditation agency.
Maintenance
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