SVR-B50

Product Data		Click on icons below for an explanation of terms
	Clamping Force	For Product Extraction - 150 ton For Product Insertion -50 ton

	Number of Servo Axes	2 Axes

	Full Cycle Time*	1.53sec

	Linear Guide	Yushin Linear Rail

	Controller	E-touch Web

*Based on dry-cycle measurement conditions as specified by Yushin

Adoption of special double-speed mechanism on traverse axis. Special double-speed mechanism with two-stage slide is adopted on the extraction arm. This adoption removes the projection of the arm. That makes the robot compact to realize saving space.
Special double-speed mechanism with two-stage slide is adopted on the extraction arm. This adoption removes the projection of the arm. That makes the robot compact to realize saving space. This robot including its arm is designed to be highly rigid for insert moulding which requires high precision.
High-speed operation. This robot realizes 1.53 second full dry-cycle time composed of work-insert time and product -extraction time.
Adoption of the color liquid-crystal touch display controller. This robot is equipped with high-functional controller as standard, which has both touch panel and function key.
Adoption of the thin-type arm. This robot's arm can enter even narrow mould opening space.
Applicable for high-speed runner extraction. This robot can be also used for high-speed runner extraction out of the vertical moulding machine because of its high-speed operation.

Model	SVR-B50
Maximum Power Consumption	Single Phase AC200V 6.9A
Traverse Stroke (mm)	700(450 : for runner extraction)
Kick Stroke (mm)	200
Air consumption Litre (Normal) / Cycle	8.0(Double Product vacuum circuit)
Maximum payload (Including end-of-arm tool)	Less than 5 kg

*1 : The payload varies with the robot speed setting.

Option	Explanation
Product chuck circuit	one or two circuits can be added to the product chuck circuit (2 circuits) provided in the standard specifications, up to 4 circuits totally.
Vacuum circuit	Expansion is possible up to 4 vacuum circuits.
Signal tower	This indicates the status of the take-out robot. (Single color)
Initial discharge operation	When automatic operation starts, defective products are forcibly released at a different position from good products for a specified number of shots.
Sampling operation	During automatic operation, products are released to a sample release position after each specified number of shots.
Confirmation of ejector retreat limit	The arm of take-out robot retreats after checking whether input of ejector pins retreat is over in order to prevent the collision between end-of-arm tooling and ejector pins.