Electronic Cutting Trimming Ultrasonic Deburring Equipment 35Khz

Electronic Components Cutting Trimming Ultrasonic Deburring Equipment 35Khz 300w

35Khz Ultrasonic Deburring Equipment for Electronic Components Cutting & Trimming

Parameter

Target Materials
Resin plate
Glass fiber (GFRP)
Formed decorative film
Foam
Blow-molded parts
Injection-molded parts
Carbon fiber (CFRP)
Aluminum foil composites
Non-woven fabrics
Controlled-depth kiss cutting

What's the principle of ultrasonic cutting?

The principle of an ultrasonic cutter is completely different from conventional one. It uses the energy of ultrasonic to melt the material to be cut. Therefore, the ultrasonic cutting does not require a sharp cutting edge, nor does it require a large pressure, and does not cause any chipping or breakage. At the same time, since the cutting blade is subjected to ultrasonic vibration, the frictional resistance is particularly small, and the material to be cut is not easily adhered to the blade. This is particularly effective for cutting viscous and elastic materials, frozen materials such as food, rubber, etc., or objects that are inconvenient to apply pressure.

The basic structure of the ultrasonic cutting machine is an ultrasonic transducer, a horn, a cutting blade (tool head), and generator. The ultrasonic generator converts the commercial power into a high-frequency high-voltage alternating current and transmits it to the ultrasonic transducer. An ultrasonic transducer is actually equivalent to an energy conversion device that converts input electrical energy into mechanical energy, ie, ultrasonic waves. Its manifestation is that the transducer moves back and forth in the longitudinal direction. The frequency of the telescopic motion is equivalent to the frequency of the high frequency alternating current supplied by the driving power source. The role of the horn is to fix the entire ultrasonic vibration system and to amplify the output amplitude of the transducer. The cutting blade (tool head) further enlarges the amplitude on the one hand and focuses the ultrasonic wave. On the other hand, the ultrasonic wave is output, and the ultrasonic energy is concentratedly input to the cutting portion of the material to be cut by using a similar cutting edge of the cutting blade. Under the action of huge ultrasonic energy, this part softens and melts instantly, and the strength is greatly reduced. At this time, as long as a small cutting force is applied, the purpose of cutting the material can be achieved.

Similar to conventional cutting, the basic components required are a cutter and an anvil, and the ultrasonic cutter has two basic structures. Depending on the location of the ultrasonic application, we may wish to divide it into an ultrasonic cutter cutter and an ultrasonic cutter cutter.

Introduction

35Khz Ultrasonic Deburring Equipment for Electronic Components Cutting & Trimming delivers cleaner cuts and enhanced precision for applications formerly delegated to waterjet, laser cutting, hard tooling and manual trimming. This environmentally-friendly solution reduces operating costs, works within a small footprint, and is energy efficient, clean and eco-friendly.

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.

Application

Low pressure mold trimming

Non-woven carpet/fabric cutting

Instrument panel kiss cutting

Molded plastic part flash trimming and edge chamfering

Aerospace component routing