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Cheersonic Ultrasonics Co.,Limited | ||||||
About this company : Cheersonic designs high-tech systems and components for ultrasonic cutting, Welding, Atomoizer and sonochsmistry. This versatility, coupled with our experience, reliability and innovative capacity, has resulted in the success of the company, since it was founded in1998. At the headquarters in Hangzhou, and in branch plants worldwide, Cheersonic now employs more than 85 people. We have obtained know-how in research, development and production, which sets standards on an international scale. Our customer base is constantly expanding and now includes numerous well-known customers from China and abroad, some of whom have been customers for many years. All this is the result of our technical progress, high-quality production and the experience of our employees. In order to keep meeting customer expectations, we insist on continuous quality and environmental management, according to the established standards EN ISO 9001 and EN ISO 14001. | ||||||
Contact : Xia Lee, manager | ||||||
Headquarters : Gaoqiao Industrial Zone, Fuyang, Hangzhou, Zhejiang, 311400 , China | ||||||
Phone : 86 571 89710406 , Fax : 86 571 89710406 | ||||||
Email : Log on to trade instantly | ||||||
S20-WM3000 Ultrasonic Metal Welding Machine 1. Ultrasonic systems allow to weld the edge of fabric in one single operation ! Our technology is based on the piezoelectric principle, to transform an electrical signal in mechanical vibration. 2. These oscillations will be amplified by the booster and converter, thus creating a hammer. The converter converts electricity into high frequency mechanical vibration. The active elements are usually piezoelectrics ceramics. The booster (optional) serves as an amplitude transformer. Amplitude magnification or reduction is achieved by certain design features or the geometrical shape of the booster. 3. The sonotrode, or horn, is the active part of the ultrasonic unit. It is in contact with the fabric and acts as a hammer against the counter-tool. This system will enable to melt the fibers within the fabric by mechanical action only (hammering), enabling to obtain a very clean and flexible melting without any burning or color change. The sonotrode and counter-tool design will be adapted to the operation to be performed. | ||||||
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CS1000DS Ultrasonic Digital Generator 1. The generators convert energy from the electrical network in a high-frequency sine wave of 35 or 20 kHz. Optimised control methods produce optimal ultrasonic vibrations. 2. Generating the ultrasonic frequency for various technologies, such as: Welding (thermoplastics, braids, contacts, metals); Punching (thermoplastic plastics, textiles) ; Cutting (textiles, food, films, rubber) ; Drilling (gems, dies) ; Erode (gems, cameos (glass, stones, gems)) ; Cleaning, emulsification, dispersion (in liquids) . 3. Fully automatic ultrasonic generator ; Gentle settling of the ultrasonic units with automatic fine-tuning the frequency associated with the stabilization of the amplitude ; Automatic frequency tuning; Setting the amplitudes of 50% to 100% with the front panel. | ||||||
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CS20-H50-Z2 Ultrasonic Welding Cutting Cleaning Transducer Product Description 1. Transducer, in electronics, a device that converts electric energy into some other form of energy, or vice versa. Piezoelectric crystals (crystals that produce an electric current when deformed) and photoelectric cells are transducers; so are loudspeakers, which produce sound from electric energy. 2. Transducers are used in sound systems, in video equipment and in many measuring devices. A transducer used in a measuring device produces an electric current proportional to the strength or intensity of the physical quantity—such as heat, light, or mechanical stress—to which the transducer is subjected. | ||||||
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CS50-A30 Ultrasonic Atomizer Machine Product Description 1. The ultrasonic power supply converts 50/60 Hz to high frequency electrical energy. This electrical energy is transmitted to the piezoelectric transducer within the converter, where it is changed to mechanical vibrations. The ultrasonic vibrations are intensified by the probe and focused at the tip where the atomization takes place. The liquid travels through the probe and spreads out as a thin film on the atomizing surface. The oscillating tip disintegrates the liquid into micro-droplets, and ejects them to form a gentle, low velocity spray. 2. Drop size is primarily a function of frequency, and the higher the frequency, the smaller the drop diameter. A wide variety of coatings, chemicals, lubricants, and particulate suspensions can readily be atomized. However, factors such as viscosity, miscibility, and solid content deserve consideration. For optimum atomization, the viscosity should be under 500 cps and the solid concentration kept below 30%. 3.The applications include: Coating non-woven fabric, paper, etc.; laboratory spray drying; injecting moisture into a gas stream; applying minute amount of oil, fragrance or flavor onto a product; injecting small volume of reagents into a reactor; | ||||||
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HC40-C800 Ultrasonic Fabric Cutting machine 1. Ultrasonic cutting is an efficient way to cut, slice, divert, align or transfer a variety of products. It involves a vibrating blade producing a nearly frictionless surface with the influence of ultrasonic which does not deform products and to which they do not stick. The vibrating frictionless blade cuts or slits products cleanly such as nuts, raisins, dried fruit or chocolate morsels without displacement or plowing. 2. Ultrasonic vibration reduces friction resistance between the blade and mterial, and it makes the blade cut smoothly without deformation. The cutting blade is made of titanium (or the material according to your requirement ). It is completely inert and enduring material. | ||||||
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HC40-C800 Ultrasonic Fabric Cutting machine 1. Ultrasonic cutting is an efficient way to cut, slice, divert, align or transfer a variety of products. It involves a vibrating blade producing a nearly frictionless surface with the influence of ultrasonic which does not deform products and to which they do not stick. The vibrating frictionless blade cuts or slits products cleanly such as nuts, raisins, dried fruit or chocolate morsels without displacement or plowing. 2. Ultrasonic vibration reduces friction resistance between the blade and mterial, and it makes the blade cut smoothly without deformation.The cutting blade is made of titanium (or the material according to your requirement ). It is completely inert and enduring material. | ||||||
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HG28-W1000 Handle Ultrasonic Spot Welding Machine 1. Ultrasonic systems allow to weld the edge of fabric in one single operation ! Our technology is based on the piezoelectric principle, to transform an electrical signal in mechanical vibration. 2. These oscillations will be amplified by the booster and converter, thus creating a hammer. The converter converts electricity into high frequency mechanical vibration. The active elements are usually piezoelectrics ceramics. The booster (optional) serves as an amplitude transformer. Amplitude magnification or reduction is achieved by certain design features or the geometrical shape of the booster. 3. The sonotrode, or horn, is the active part of the ultrasonic unit. It is in contact with the fabric and acts as a hammer against the counter-tool. This system will enable to melt the fibers within the fabric by mechanical action only (hammering), enabling to obtain a very clean and flexible melting without any burning or color change. The sonotrode and counter-tool design will be adapted to the operation to be performed. | ||||||
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HS28-C500 Handle Ultrasonic Cutting&Sealing Machine 1. Ultrasonic processing is an efficient way to cut, slice, divert, align or transfer a variety of products involves a vibrating blade producing a nearly frictionless surface with the influence of ultrasonic which does not deform products and to which they do not stick. The vibrating frictionless horn cuts or slits products cleanly such as mask, bra, cloth, curtain, fabric without displacement or plowing. 2. Ultrasonic vibration reduces friction resistance between the blade and mterial, and it makes the horn cut smoothly without deformation.The horn is made of titanium (or the material according to your requirement ). It is completely inert and enduring material. 3. The use of ultrasonic cutting , incision aesthetic integrity, trimming neatly smooth, without Burr, to leave the border areas, not black, not burned, not the hardware products to feel very good shear results | ||||||
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IUIP1000 Ultrasonic Sonochemistry Processor 1. Upon irradiation with high intensity sound or ultrasound, acoustic cavitation usually occurs. Cavitation – the formation, growth, and implosive collapse of bubbles irradiated with sound — is the impetus for sonochemistry and sonoluminescence. Bubble collapse in liquids produces enormous amounts of energy from the conversion of kinetic energy of the liquid motion into heating the contents of the bubble. The compression of the bubbles during cavitation is more rapid than thermal transport, which generates a short-lived localized hot-spot. 2. Sonochemical reaction is an attractive method for preparing novel materials with unusual properties. The advantages of using sonochemical methods for sample preparation include high purity, narrow size distributions, controllable reaction conditions and the ability to form nanoparticles with uniform shapes and rapid reaction rate. It also improves the performance of phase transfer catalysts and reactivity of catalysts or reagents. 3. Ultrasonic mixing equipment is widely used in cosmetic industry for producing, degassing and homogenizing of emulsions.Ultrasonic devices are used for extracting algae oil and other compounds from the continuous algae reactors. They are also employed in dispersing and reducing the size of pigments in printing inks and inkjet inks. | ||||||
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IUIP3000 Ultrasonic Sonochemistry Processor Product Description 1. Upon irradiation with high intensity sound or ultrasound, acoustic cavitation usually occurs. Cavitation – the formation, growth, and implosive collapse of bubbles irradiated with sound — is the impetus for sonochemistry and sonoluminescence. Bubble collapse in liquids produces enormous amounts of energy from the conversion of kinetic energy of the liquid motion into heating the contents of the bubble. The compression of the bubbles during cavitation is more rapid than thermal transport, which generates a short-lived localized hot-spot. 2. Sonochemical reaction is an attractive method for preparing novel materials with unusual properties. The advantages of using sonochemical methods for sample preparation include high purity, narrow size distributions, controllable reaction conditions and the ability to form nanoparticles with uniform shapes and rapid reaction rate. It also improves the performance of phase transfer catalysts and reactivity of catalysts or reagents. 3. Ultrasonic mixing equipment is widely used in cosmetic industry for producing, degassing and homogenizing of emulsions.Ultrasonic devices are used for extracting algae oil and other compounds from the continuous algae reactors. They are also employed in dispersing and reducing the size of pigments in printing inks and inkjet inks. | ||||||
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S15-WP2600 Ultrasonic Plastic Welding Machine 1. Ultrasonic systems allow to weld the edge of fabric in one single operation ! Our technology is based on the piezoelectric principle, to transform an electrical signal in mechanical vibration. 2. These oscillations will be amplified by the booster and converter, thus creating a hammer. The converter converts electricity into high frequency mechanical vibration. The active elements are usually piezoelectrics ceramics. The booster (optional) serves as an amplitude transformer. Amplitude magnification or reduction is achieved by certain design features or the geometrical shape of the booster. | ||||||
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S20-WF1500 Ultrasonic Sewing Machine 1. Ultrasonic systems allow to weld the edge of fabric in one single operation ! Our technology is based on the piezoelectric principle, to transform an electrical signal in mechanical vibration. 2. These oscillations will be amplified by the booster and converter, thus creating a hammer. The converter converts electricity into high frequency mechanical vibration. The active elements are usually piezoelectrics ceramics. The booster (optional) serves as an amplitude transformer. Amplitude magnification or reduction is achieved by certain design features or the geometrical shape of the booster. 3. The sonotrode, or horn, is the active part of the ultrasonic unit. It is in contact with the fabric and acts as a hammer against the counter-tool. This system will enable to melt the fibers within the fabric by mechanical action only (hammering), enabling to obtain a very clean and flexible melting without any burning or color change. The sonotrode and counter-tool design will be adapted to the operation to be performed. | ||||||
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UIP100 Lab Ultrasonic Sonochemistry Processor 1. Upon irradiation with high intensity sound or ultrasound, acoustic cavitation usually occurs. Cavitation – the formation, growth, and implosive collapse of bubbles irradiated with sound — is the impetus for sonochemistry and sonoluminescence. Bubble collapse in liquids produces enormous amounts of energy from the conversion of kinetic energy of the liquid motion into heating the contents of the bubble. The compression of the bubbles during cavitation is more rapid than thermal transport, which generates a short-lived localized hot-spot. 2. Sonochemical reaction is an attractive method for preparing novel materials with unusual properties. The advantages of using sonochemical methods for sample preparation include high purity, narrow size distributions, controllable reaction conditions and the ability to form nano particles with uniform shapes and rapid reaction rate. It also improves the performance of phase transfer catalysts and reactivity of catalysts or reagents. 3. Ultrasonic mixing equipment is widely used in cosmetic industry for producing, degassing and homogenizing of emulsions.Ultrasonic devices are used for extracting algae oil and other compounds from the continuous algae reactors. They are also employed in dispersing and reducing the size of pigments in printing inks and inkjet inks. | ||||||
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UIP750 Lab Ultrasonic Homogenizing Processor 1. Upon irradiation with high intensity sound or ultrasound, acoustic cavitation usually occurs. Cavitation – the formation, growth, and implosive collapse of bubbles irradiated with sound — is the impetus for sonochemistry and sonoluminescence. Bubble collapse in liquids produces enormous amounts of energy from the conversion of kinetic energy of the liquid motion into heating the contents of the bubble. The compression of the bubbles during cavitation is more rapid than thermal transport, which generates a short-lived localized hot-spot. 2. Sonochemical reaction is an attractive method for preparing novel materials with unusual properties. The advantages of using sonochemical methods for sample preparation include high purity, narrow size distributions, controllable reaction conditions and the ability to form nanoparticles with uniform shapes and rapid reaction rate. It also improves the performance of phase transfer catalysts and reactivity of catalysts or reagents. 3. Ultrasonic mixing equipment is widely used in cosmetic industry for producing, degassing and homogenizing of emulsions.Ultrasonic devices are used for extracting algae oil and other compounds from the continuous algae reactors. They are also employed in dispersing and reducing the size of pigments in printing inks and inkjet inks. | ||||||
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Ultrasonic atomizer Unlike conventional atomizing nozzles that rely on pressure and high-velocity motion to shear a fluid into small drops, the ultrasonic atomizer uses only ultrasonic vibrational energy to generate a gentle, low-velocity spray. Overspray is practically eliminated, resulting in substantial material savings and reduction in airborn pollution. The liquid can be dispensed to the atomizing probe (nozzle) by either gravity or a small low-pressure metering pump, and atomized continuously or intermittently. The rate at which the liquid is atomized depends, within limits, solely on the volume that is being delivered onto the atomizing surface, and the frequency. | ||||||
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Ultrasonic cutting for fabric CHEERSONIC offer an innovative processing by using ultrasonic cutting machine. The ultrasonic blade, which is called horn or blade, vibrates at high frequencies of 15-60kHz, and this high-frequency vibration reduces the friction resistance at cutting surface. Our ultrasonic cutting machine can be installed easily in your current production system. If any trouble happens during ultrasonic operation, the ultrasonic generator sends an error signal to customer's PLC. The system can detect the trouble and stop the system immediately. | ||||||
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Ultrasonic sonochemistry processor 1. Optional
frequency and power,40kHz — 20 kHz, 200W - 3000W. 3. Frequency
automatic tracking adjustment, to avoid the load impedance with the ambient
temperature, the working medium due to factors such as changes in the larger
power fluctuations. 4. Constant
power, good effect. 5. Ultrasonic
digital generator,small size,light weightand high efficiency. 6. Reasonable
structure, easy ventilation, continuous running and reliable operation. | ||||||
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Ultrasonic transducer At our
cheersonic,we offer the most trusted and innovative brands in power generation,electrical
protection,power quality,mechanical power transmission,fluid automation and
materials jioning. Whatever your line of business,wherever your location
in the world,we can speed your time to market with cutting-edge solutions
Four elements are needed: An ultrasonic
generator to control and provide energy to the ultrasonic head. A mechanical unit
composed with a Converter, a Booster and a Sonotrode / Horn, to perform the
cutting sealing operations | ||||||
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Ultrasonic welding Ultrasonic Welding Machine could bring a beautiful and high efficiency welding. * Ultrasonic welding machine transmitted ultrasonic energy through welding parts to welding area, local high temperature will happened due to high acoustic resistance between two welding interface places. * Also, no enough time speading out heating energy timely because of poor parts thermal conductivity, heating energy gathered in welding area since could not spreading out timely, the two parts contact areas will welt rapidly, coupled with a certain pressure, it makes fusion to one unite. * When ultrasonic stop function, and keep the pressure sustain to solidification molding, finally forming a strong molecular chain, which achieve the purpose of welding. The welding strength can close to raw material body strength. | ||||||
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