Abstract: A method and an apparatus for generating particles are provided. The method may be a method for generating particles from a flowable medium, the method involving forming drops from the flowable medium, arranging the drops on a particle forming surface and solidifying the drops, thereby forming the particles. The apparatus may be an apparatus for generating particles from a flowable medium with a drop generator and a particle forming surface, the drop generator being formed to arrange drops on the particle forming surface and the particle forming surface may be adapted to contact the drops when the particles are being formed.
Abstract: The invention relates to an ultrasonic generator (1) with a resonator (3) for transmitting ultrasonic sound to a medium (6) arranged in a receptacle (5). In order to efficiently transmit the ultrasonic sound from the resonator (3) to the medium (6) via the receptacle (5) the resonator (3) comprises a clamping opening (4) for clampingly receiving the receptacle (5).
Abstract: An ultrasound system for the generation of low-frequency high-power ultrasound includes a resonator for transmitting the ultrasound to a medium. To safely handle the ultrasound system, the ultrasound system has a light source illuminating a workspace of the ultrasound system.
Abstract: The invention relates to a method for the after-treatment of a vinegar obtained by fermentation. The method is characterized in that the vinegar is treated with ultrasound by means of an ultrasonic device, by taking into account the following parameters: amplitude 0.1 to 150 ?m frequency 10 to 200 kHz surface intensity of the ultrasonic treatment 0.001 to 200 W/cm2 power per ultrasonic device used 20 to 20000 W net energy input 0.01 to 2000 kWh/m3 volume-related power input 0.001 to 100 W/mL liquid pressure 0.1 to 50 bar, and temperature ?2 to 150° C. The ultrasonic treatment of the vinegar obtained by fermentation has an influence on the sensory, optical and microbial quality of the vinegar and influences the storability and effect thereof.
Type:
Application
Filed:
May 19, 2011
Publication date:
March 7, 2013
Applicant:
Dr. Hielscher GmbH
Inventors:
Holger Hielscher, Thomas Hielscher, Harald Hielscher
Abstract: The invention relates to a method and a device for introducing ultrasound into a flowable medium using a sonotrode, wherein the flowable medium is not in direct contact with the sonotrode. Disclosed is a method comprising the following steps: placing a film (8) on the sonotrode (4) in such a way that the contact force by means of which the film (8) is pressed on the sonotrode (4) is always so great that the film (8) follows the lifting motions of the sonotrode (4) in the corresponding frequency and amplitude; applying ultrasound power through the film (8) into the medium (2) and transmitting the wear phenomena onto the film (8).
Type:
Grant
Filed:
May 12, 2005
Date of Patent:
August 7, 2012
Assignee:
Dr. Hielscher GmbH
Inventors:
Harald Hielscher, Holger Hielscher, Thomas Hielscher
Abstract: The invention relates to a method and a device for cooling ultrasonic transducers. The inventive device is characterised in that it consists of at least one piezo stack (4) and at least two cylindrical transducer bodies (5), which together with the piezo stack (4) form an ?/2 oscillator. In multiple transducer assemblies, two respective transducer bodies (5) can be combined to form a common transducer body (6) and the transducer bodies (5, 6) comprise flow channels (7), through which pressurised coolant can flow. The inventive method for cooling ultrasonic transducers is characterised in that the body of the ultrasonic transducer is traversed and/or surrounded by a pressurised coolant. This enables the heat that is generated in the transducers to be directly dissipated by convection. In addition the inventive elements enable the creation of a large common contact surface between the transducers and the coolant.
Abstract: The invention relates to a device for coupling low-frequency high-power ultrasound resonators by a tolerance-compensating force-transmitting connection having at least one contact surface between the at least two resonators on or proximate to the oscillation maximum of the oscillation to be transmitted by the coupling for the purpose of transmitting low-frequency ultrasound power between the resonators coupled in this manner.
Type:
Grant
Filed:
November 11, 2008
Date of Patent:
February 15, 2011
Assignee:
Dr. Hielscher GmbH
Inventors:
Holger Hielscher, Thomas Hielscher, Harald Hielscher
Abstract: The present invention refers to an ultrasonic device comprising an ultrasound transducer; and a disk-shaped metallic low-frequency ultrasound (NFLUS) resonator being mechanically connected with the ultrasound transducer on one side of the resonator; a container with an opening on its bottom side and being arranged on the other side of the disk-shaped resonator such that the opening is facing the disk-shaped resonator; an elastic sealing element arranged between the disk-shaped resonator and the container for sealing the container around the opening; and means for supplying a pressing force such that the container is tightened on the resonator during ultrasonication, but can be repeatedly disassembled and assembled after ultrasonication.
Type:
Grant
Filed:
September 23, 2008
Date of Patent:
January 18, 2011
Assignee:
Dr. Hielscher GmbH
Inventors:
Holger Hielscher, Thomas Hielscher, Harald Hielscher
Abstract: The invention relates to a device for coupling low-frequency high-power ultrasound resonators by a tolerance-compensating force-transmitting connection having at least one contact surface between the at least two resonators on or proximate to the oscillation maximum of the oscillation to be transmitted by the coupling for the purpose of transmitting low-frequency ultrasound power between the resonators coupled in this manner.
Type:
Application
Filed:
November 11, 2008
Publication date:
May 14, 2009
Applicant:
DR. HIELSCHER GMBH
Inventors:
HOLGER HIELSCHER, THOMAS HIELSCHER, HARALD HIELSCHER
Abstract: The invention relates to a method and a device for introducing ultrasound into a flowable medium using a sonotrode, wherein the flowable medium is not in direct contact with the sonotrode. Disclosed is a method comprising the following steps: placing a film (8) on the sonotrode (4) in such a way that the contact force by means of which the film (8) is pressed on the sonotrode (4) is always so great that the film (8) follows the lifting motions of the sonotrode (4) in the corresponding frequency and amplitude; applying ultrasound power through the film (8) into the medium (2) and transmitting the wear phenomena onto the film (8).
Type:
Application
Filed:
May 12, 2005
Publication date:
August 14, 2008
Applicant:
DR. HIELSCHER GMBH
Inventors:
Harald Hielscher, Holger Hielscher, Thomas Hielscher
Abstract: The invention concerns a method for the constant maintenance of the mean gap width between a sonotrode of an ultrasonic system and a tool of an ultrasonic cutting device, designed as a counter surface, for cutting and/or welding of various types of materials such as, for example, synthetic foils, textile fabrics containing synthetic substances, by means of a cutting tool, using an adjusting device.
Abstract: The invention concerns a method for the constant maintenance of the mean gap width between a sonotrode of an ultrasonic system and a tool of an ultrasonic cutting device, designed as a counter surface, for cutting and/or welding of various types of materials such as, for example, synthetic foils, textile fabrics containing synthetic substances, by means of a cutting tool, using an adjusting device.
Abstract: The present invention relates to a method for the safe oscillation build-up of ultrasonic disintegrators and to a circuitry for carrying-out the method. In particular the present invention is a method and a circuitry substantially irrespective of deviations of the mechanical resonance frequency, with a start/stop generator 8 that periodically blocks the output of the h.f. generator 1 and maintains the blocking for a fixed dead time and then periodically repeats this procedure if during the scanning of a wide frequency band of the h.f. generator 1 the feedback amplitude of the piezo-disc 4 disposed at the ultrasonic transducer 3 falls below the value required for a safe oscillation build-up.