The LDS-BFOB86B Spreader Special Camera System is specially designed for the spreader. Due to the flexible connection, the swing of the spreader is large. The spreader constantly collides and frictionates with the freight container and the bulkhead guide rail on the ship during the operation. So there are more stringent requirements for camera system. In view of these characteristics of the spreader, the LDS-BFOB86B Spreader Special Camera System can be used for remote control and automatic operation of the quayside container crane to observe the hanging holes of freight container and twist locks of spreader when the spreader is grabbing the freight container. The Spreader Special Camera System is able to observe the corresponding position of the spreader twist locks and the freight container hanging holes, and it is able to observe the relative height difference between the spreader and the freight container. It has the characteristics of small volume, anti-vibration, anti-impact, anti-collision, convenient installation and maintenance which can be used in small installation space.
It supports corridor mode and electronic image stabilization. The operation interface is convenient that the user can browse images through the web browser directly and use the mouse to make detailed settings of camera parameters. It supports a variety of network protocols such as TCP/IP, HTTP, DHCP, DNS, DDNS, and supports the ONVIF protocol standard.
It supports POE power supply, 3D digital noise reduction, day and night automatic conversion function, network upgrade, wide dynamic, backlight compensation, fog processing, local video and picture capture function, maximum resolution: 50Hz: 25fps ( 1280 × 960), 60Hz: 30fps (1280 × 960).
The LDS-BFOB86B Spreader Special Camera System consists of two parts: the anti-collision protection equipment and the camera device. The anti-collision protection equipment not only protects the camera device, enhances the anti-collision function of the camera system, so that it can be used under strong vibration environment conditions, and the stability of the output image is improved. but also Moreover, according to the requirements of the user, the structure can be finely adjusted in terms of design and processing to adapt to different observation angles. There is radial damping between the anti-collision protection device and the camera device, and the camera image device is also designed with an axial damping structure, which provides a good shock absorption effect on the camera. Adjust the position of the image on the front display device by rotating the camera. In the case of no impact, the camera unit can be applied separately to perform real-time monitoring of the target.