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|Material:||Special Steel Alloy, Titanium Alloy|
Robotic Ultrasonic Cutting Knife For Precise and Smooth Deburring and Trimming in Multiple Industrial Applications
obotic ultrasonic cutting Robotic ultrasonic cutting is a new technology with enormous potential to replace more traditional cutting processes. Ultrasonic cutting is already being implemented in a wide variety of applications all over the world.The high speed and low cutting forces make ultrasonic cutting ideal for non-metallic materials including plastics, foam, carpet, rubber, fiberglass-reinforced plastic and non-woven material.
|Generator||Digital generator, 452 x 180 x 100mm|
|Size of cutter||Blade replaceable|
|Length of cable||3M|
|Voltage||220V / 110V|
|Accessory||Foot switch 1pc；
1.5mm special hex wrench 1pc；Screw M3×4L 2pcs
|Material of blade||titanium alloy, stainless steel|
Robotic ultrasonic cutting is great for many different applications and provides numerous benefits over more traditional cutting methods.
Ultrasonic cutting technology is quite different from other cutting techniques. Because of this, it has found widespread use in the industrial sector and will likely continue to grow in popularity due to the many benefits it provides.
Reduced operating costs
Improved worker safety
Clean and Eco-Friendly
Eliminates swarf, noise, burnt edges, flue gases or moisture penetration
No water waste disposal
Low pressure mold trimming
Non-woven carpet/fabric cutting
Instrument panel kiss cutting
Molded plastic part flash trimming and edge chamfering
Automotive interior components such as door trim, steering wheels, instrument panels, consoles and HVAC molded components
Most all injected, vacuum, rotational or blow molded parts for general industry usage
The ultrasonic cutter is composed of a "transducer" that generates vibration and an "oscillator" that drives the transducer. A piezoelectric element is used for the transducer. When voltage is applied, the piezoelectric element displaces the transducer by a few micrometers. Periodically applying voltage generates vibration. Each object has its special frequency, by which the object is stable and easy to vibrate. By adding an external force that corresponds to that special frequency, a small force can obtain a large vibration. This phenomenon is called resonance. In the ultrasonic cutter, the piezoelectric element generates a force that resonates the whole body, from the transducer to the blade tip, generating a large vibration at the tip. The oscillator periodically generates voltage to resonate and drive the transducer. Using a component of the ultrasonic cutter called the horn to wring the cross-sectional area, from the piezoelectric element to the blade tip, can obtain a larger vibration.
The HSPC30 is designed to be built into apparatuses, such as robots and automated machines, as a cutting tool for cutting and deburring.
ON/OFF operation and amplitude change can be performed from the outside. The HSPC30 can output error signals, such as overload notifications. (Specifications vary according to the model.)
It can be used to:
+ Cut vehicle interior materials
+ Cut carbon fiber prepreg for aircrafts
+ Debur and gate-cut resin-molded products
+ Half-cut multilayer materials
It can also be used easily as a hand tool
Other examples of how the HSPC30 can be used:
+ To clean fossils
+ To cut breads
+ To cut geological sections (clay layers)
+ To remove rust, paint, and extraneous matter
+ To edge process film materials
(rounding of angular parts)
Contact Person: Hogo Lv