CKVisionBuilder 4.0, as a new machine vision software platform launched by CKVision, has successfully integrated cutting-edge AI technology. It does not require writing code, and users can directly realize multi-function combinations through software drag-and-drop tools.Its high-performance and multi-purpose characteristics allow users to easily cope with a variety of Machine vision tasks.CKVisionBuilder 4.0 also has outstanding development speed, which can realize various complex logical processes according to the developer's intentions, and the development efficiency is greatly improved.The software platform provides powerful computing power and supports various complex machine vision algorithm operations.At the same time, it also has a wealth of algorithm tools that have been tested and verified for a long time. Users can directly call these tools to quickly complete customer requirements for custom machine vision system development software for non-standard equipment.
CKVisionSDK is a Machine Vision software development kit designed for the establishment and deployment of Machine Vision systems. Through the CKVisionSDK, users can rapidly create a diverse array of applications that directly cater to the needs of various industries and stakeholders. The CKVisionSDK finds extensive utility in electronics, semiconductor, laser, PCB, packaging, measurement, monitoring, hardware printing, medicine, and numerous other sectors. Additionally, it can serve educational purposes, particularly for training in image algorithms.
CKVisionApp is an easy-to-use machine vision software API provided by CKVision. It can be embedded in your application software and provides development interfaces such as C, C++, C#, QT, Delphi, and VB. It is very simple and flexible to use.It provides various image functions in CKVisionBuilder, covering positioning, measurement, recognition, code reading, defects, color, 3D, logical operations, image preprocessing and powerful logical operations. Due to the simple interface, users only need to spend a small amount of time to develop a complete vision system.
The main body of the plum blossom coupling is made of high-strength aluminum alloy. The colloid is made of polyurethane, which has good wear resistance and can absorb vibration, zero rotary clearance, radial compensation and large torque transmission.
The diaphragm structure has high torque rigidity, can accurately control the rotation of the shaft, and can be controlled with high precision. The gapless shaft is linked with the shaft sleeve, and is suitable for forward and reverse rotation.
The CNC stud welding system (automatic stud welding platform) is a high-precision, high-efficiency fully automatic CNC stud welding device. The X- and Y-axis drives use high-precision ball screw linear modules, which provide stable operation, high positioning accuracy, and long service life. The control system uses industrial-grade PC or PLC or drive-control integration, which can be equipped with energy storage stud welding machines or arc-pulling stud welding machines to meet different welding requirements. The Z-axis can be selected from pneumatic or electric servo drives, and can be equipped with one or more welding terminals to meet personalized needs in different fields.
This product is an intelligent welding workstation specially designed for corrugated plate workpieces by Shenzhen Zhige Robot System Co., Ltd., which adopts binocular visual trajectory tracking The real-time tracking technology and the tracking operation software control system realize the parallel processing of real-time visual recognition and real-time operation of the robot, and the whole process of welding seam visualization and real-time tracking can be greatly improved. And that operation efficiency and the weld quality of the robot are greatly improved.
The core components of flexible feeding equipment are SCARA robot, visual recognition and detection system, flexible vibration plate and automatic feeding bin, which can easily realize full automation. The flexible feeding workstation is a standardized and modular integrated feeding equipment, which can complete a series of operations such as feeding, arrangement, identification, positioning, picking and sorting of various irregular parts. The flexible feeding workstation can reduce a lot of labor costs and management costs, operate continuously for 24 hours, and maintain consistent production quality and efficiency.
Stepping motor is an open-loop control element which converts the electric pulse signal into angular displacement or linear displacement. By controlling the sequence, frequency and quantity of the electric pulse applied to the motor coil, the rotation direction, speed and rotation angle of the stepping motor can be controlled. With a linear motion actuator or a gear box device, more complex and precise linear motion control requirements can be achieved. The stepper motor is generally composed of front and rear end covers, bearings, central shaft, rotor core, stator core, stator assembly, corrugated washer, screw, etc. The stepper motor is also called stepper, which uses the principle of electromagnetism to convert electric energy into mechanical energy, and is driven by the coil wound on the stator tooth space of the motor. Usually, a wire wound in a coil is called a solenoid, while in a motor, the wire wound around a stator slot is called a winding, coil, or phase.
The servo motor can control the speed, the position precision is very accurate, and the voltage signal can be converted into torque and speed to drive the control object. The rotor speed of the servo motor is controlled by the input signal and can respond quickly. In the automatic control system, it is used as an actuator and has the characteristics of small electromechanical time constant and high linearity. It can convert the received electrical signal into the angular displacement or angular velocity output on the motor shaft. Divided into two categories of DC and AC servo motor, its main feature is that when the signal voltage is zero, there is no rotation phenomenon, and the speed decreases uniformly with the increase of torque.
Brushless DC motor (BLDCM) is a typical mechatronics product, which is composed of a motor body and a driver. Brushless motor refers to the motor without brush and commutator (or collector ring), also known as commutatorless motor. As early as the nineteenth century, when the motor was born, the practical motor was the brushless form, that is, the AC squirrel-cage asynchronous motor, which was widely used. However, the asynchronous motor has many defects that can not be overcome, so that the development of motor technology is slow. Transistors were born in the middle of the last century, so brushless DC motors using transistor commutation circuits instead of brushes and commutators came into being. This new type of brushless motor is called electronically commutated DC motor, which overcomes the shortcomings of the first generation of brushless motor.