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Anti-collision protection for Overhead Hoist Transporters (OHTs) in the synthetic fiber workshop

In modern fiber-fabrication plants, automated material handling systems (AMHS) are becoming increasingly widespread. Often, multiple Overhead Hoist Transporters (OHTs) need to operate at high density and high speed on the same single-track system. Due to the heavy loads carried by these vehicles—each fully loaded with silk cakes—and their substantial inertia, coupled with the fact that the tracks typically run above equipment, a rear-end collision or an impact with obstacles such as track maintenance ladders could not only pose a serious risk of objects falling from height but also bring the entire logistics line to a standstill. Traditional contact-type anti-collision barriers can only take effect once a collision has already occurred; they cannot maintain a safe distance in a non-contact manner.

Safety Protection for Mobile Operations of Synthetic Fiber Winding Machines

In the synthetic fiber textile workshop, automatic bobbin-replacement carts need to frequently shuttle back and forth between the long winding machine aisles, performing the heavy-duty task of changing bobbins. The aisles are narrow, and often populated by inspectors or temporarily parked trolleys. Once a bobbin-replacement cart collides with personnel while moving, it not only could cause injuries to workers but also might damage the precision winding machines—and even bring down the entire production line, resulting in substantial losses. Traditional mechanical anti-collision strips are slow to react and cannot provide non-contact, proactive safety protection.

Safety Protection for the Swing-Arm Working Area of CNC Pipe Bending Machines

When using a CNC pipe bending machine to process long pipe components, as the bending die rotates, the tail end of the pipe undergoes significant lateral swinging—commonly referred to as "tail sweeping." This process is fast-paced, involves high torque, and the hazardous area varies depending on the length of the pipe component. Traditional physical barriers not only occupy substantial workshop space but also severely impede the frequent loading and unloading of long pipe components and the replacement of dies, thereby reducing production efficiency. Therefore, a key requirement for upgrading safety in pipe-bending workshops is how to effectively prevent operators from being struck or squeezed by swinging pipe components without resorting to physical barriers.

Automatic bobbin-releasing machine for synthetic fiber lanes—collision protection during operation

In the synthetic fiber textile workshop, automatic bobbin-releasing machines need to move back and forth within narrow, elongated machine aisles. Due to the enclosed and confined nature of these aisles, if an operator accidentally enters the aisle for inspection or cleaning, they could easily be squeezed or struck by the high-speed bobbin-releasing machines. Moreover, since the bobbin-releasing machines are equipped with lifting mechanisms, a collision could not only cause personal injury but also result in the costly silk bobbins being dropped and damaged while being handled. Ensuring the safety logic of "machines stop when people are present, and people stop when machines are operating" in such a cramped, human-machine-shared space is a major challenge in production management.

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Images	Order Number	Product line	Product Name	Product abbreviation	Configuration Instructions	Scanning angle	Scanning frequency	Resolution	Measure the distance	10% reflectivity detection range	Accuracy	Input/Output Interface	Anti-light interference	Operating temperature	Power supply voltage	High and low voltage levels	Power consumption	Protection	Housing dimensions	Shell material	Cable length	Applicable scenarios	资料下载	询价	Contrast
	0101347	N70	ILS-N70 High-Precision Navigation and Obstacle-Avoidance LiDAR	N70-S01	-	290°	30 Hz	0.1°	20 meters	10 meters	±3 cm	Ethernet, Type-C, multi-channel IO level output	100,000 Lux	-10℃~50℃	DC 10~28V	-	≤7W	IP65	102 mm (length) × 80.5 mm (width) × 115 mm (height)	Aluminum alloy	0.32 m	-
	0101291	N70	ILS-N70 High-Precision Navigation and Obstacle-Avoidance LiDAR	N70	-	290°	30 Hz	0.1°	20 meters	10 meters	±3 cm	Ethernet, Type-C, multi-channel IO level output	100,000 Lux	-10℃~50℃	DC 10~28V	-	≤7W	IP65	102 mm (length) × 80.5 mm (width) × 115 mm (height)	Aluminum alloy	0.32 m	-