Abstract: An electromechanical joining module for applying a linear force to a joining element, includes a stator, which represents the stationary part of the joining module, a tappet, which can be linearly extended out of the stator and which has an outer tappet end, and a force transducer for detecting forces that are applied to the joining element during the operation of the tappet end. The force transducer is attached in the area of the tappet end and has sensor electronics for wirelessly transmitting measurement data by means of near-field and far-field telemetry.
Type:
Grant
Filed:
July 7, 2010
Date of Patent:
May 27, 2014
Assignee:
Kistler Holding AG
Inventors:
Andreas Kirchheim, Jochen Schneider, Daniel Otter, Georges Schaffner, Rolf Thiel
Abstract: A circuit for a charge amplifier for converting piezoelectric measurement signals continuously sets the output signal of the amplifier to a value close to zero, such that a reset switch becomes unnecessary. The amplifier includes a pulse generator that provides the output signal of the amplifier in the form of pulses, which are easy to transmit with low interference. The pulse frequency is proportional to the rate of change of charge. The pulses, which are added in a counter, represent a value proportional to the change in the charge since the last counter reset, which is proportional to the present measured value at the measurement element.
Abstract: A force sensor system for measuring forces that are transferred from film strips or sheet metal strips to a measuring roll during rolling in roll stands can be inserted into a cylindrical hole of a measuring roll under preload. The force sensor system includes a first force sensor and a preloading device for creating a preload on the first force sensor, so that the first force sensor can determine a force acting radially on the measuring roll. The first force sensor has a high sensitivity, which corresponds to the required measurement sensitivity of the contact force of the film strip or sheet metal strip. The force sensor system includes a second force sensor, which also can be placed under preload by means of the preloading device. The second force sensor is a statically measuring force sensor.
Abstract: A piezoresistive sensor chip element of a pressure sensor has lower face with an outer edge, an adhesion area and a non-adhesion area. The chip has a closed chip cavity for measuring the pressure of a medium flowing around the chip. The upper face of a substrate is fastened only at the adhesion area of the chip. The non-adhesion area extends at least over a circular area arranged centrally on the lower face and covers a third of the lower face's total area and extends over at least one connection area from the circular area to the edge of the lower face. The pressure in the pressure medium can spread through the connection area into a space under the non-adhesion area on the element lower face. The substrate has a recess located centrally under the sensor chip element.
Type:
Grant
Filed:
August 29, 2011
Date of Patent:
October 29, 2013
Assignee:
Kistler Holding, AG
Inventors:
Ulrich Albicker, Christof Sonderegger, Peter Meister, Jochen Von Berg, Rene Tanner, Jeffrey M. Schnellinger
Abstract: A piezoresistive sensor chip element of a pressure sensor has lower face with an outer edge, an adhesion area and a non-adhesion area. The chip has a closed chip cavity for measuring the pressure of a medium flowing around the chip. The upper face of a substrate is fastened only at the adhesion area of the chip. The non-adhesion area extends at least over a circular area arranged centrally on the lower face and covers a third of the lower face's total area and extends over at least one connection area from the circular area to the edge of the lower face. The pressure in the pressure medium can spread through the connection area into a space under the non-adhesion area on the element lower face. The substrate has a recess located centrally under the sensor chip element.
Type:
Application
Filed:
August 29, 2011
Publication date:
July 4, 2013
Applicant:
KISTLER HOLDING AG
Inventors:
Ulrich Albicker, Christof Sonderegger, Peter Meister, Jochen Von Berg, Rene Tanner, Jeffrey M. Schnellinger
Abstract: A device for controlling the course of a process in the production of parts in a tool with or without subsequent reject separation, includes a sensor, which is fitted to the tool to detect measured values during a production process, which can mean an assembly process, a jointing process and any other process, until the part to be produced is finished and ready for delivery. The device includes an output element and a data processing system having a display for reading in and displaying the detected measured values. The data processing system analyzes target parameters provided by the user and the detected measured values to determine an output quantity that is transferred by the output element for the purpose of controlling the course of the process. Operation of the device performs a method for controlling the course of a process.
Abstract: A pressure or force sensor has a sensor housing, a measuring element in the housing, and a sensor membrane. The membrane is delimited by an inner edge and an outer edge, which is connected in a pressure-resistant manner to the sensor housing. The inner edge transitions in a pressure-resistant manner into a movable plunger, the travel of which can be detected by the measuring element. The membrane has one or more elastic regions between the outer edge and the inner edge, each region having a thinnest point, wherein the material thickness inside the elastic region increases steadily on both sides of this thinnest point. The cross-section of the membrane has an arched shape in each elastic region, and the arched shape has a convex outer and concave inner contour relative to the arch orientation.
Abstract: A method for detecting an insert object in an injection-moulded part pertains to an insert object that is fixedly connected to the injection-moulded part during the injection moulding by the insert object being placed in a cavity, which is surrounded by a mould wall of a mould, before the beginning of the injection-moulding cycle. The mould wall includes at least one temperature or pressure sensor, which records and analyzes at least one measured value at at least one point in time during an injection-moulding cycle. On the basis of the analysis, it is established whether an insert object was present at a specific location in the cavity during the injection-moulding cycle. Finally, after it is ejected, the injection-moulded part is sorted as an accepted part or a rejected part on the basis of the analysis of the measured value.
Abstract: The invention relates to a tool having a tool element which rotates in operation with at least one geometrically defined blade, in particular a material cutting tool element. The tool element is subject to an operating parameter in the operating condition. A measuring device is provided for determination and conversion of the operation parameter into a measured signal. A first measuring device cooperates with a first tool element in the operating condition such that essentially only a first operating parameter for the first tool element may be recorded by the first measuring device.
Type:
Grant
Filed:
August 30, 2006
Date of Patent:
February 19, 2013
Assignee:
Kistler Holding AG
Inventors:
Georges Schaffner, Josef Stirnimann, Andreas Kirchheim, Drazen Veselovac, René Schmitz
Abstract: A method for calibrating a WIM (Weigh in Motion) sensor built into a road during travel of a calibrating vehicle measures the dynamic wheel force on the road and on the WIM sensor directly at the measuring wheel, depending on time or location. These wheel force data are transmitted to an evaluating unit. As the calibrating vehicle passes over, WIM signal data are simultaneously measured at the WIM sensor and transmitted to the evaluating unit. The wheel force data are synchronised with the WIM signal data in the evaluating unit. A calibration function is determined by comparing the dynamic wheel force data with the WIM signal data.
Type:
Application
Filed:
March 24, 2011
Publication date:
January 24, 2013
Applicant:
KISTLER HOLDING AG
Inventors:
Adrian Hofmann, David Cornu, Reto Calderara
Abstract: A joining unit contains a spindle drive in the form of a hollow shaft motor that encloses a spindle. The hollow shaft motor serves to achieve a linear movement of a joining tool for the execution of a joining process. The joining unit contains instruments for the presetting and/or determination of the forces exerted and/or the movement of the joining tool during the joining process.
Abstract: A sensor for measuring pressures in low-viscosity media for use in injection moulding includes a housing with an axis A, a flat end face to be exposed to a pressure space, and a diaphragm that is arranged on the end face and is permanently connected to the housing. A measuring element that can infer a pressure prevailing in the pressure space on the basis of deflection of the diaphragm is arranged behind the diaphragm. A pressure sleeve that is tightly connected to the sensor on the end face and is arranged at a distance from the housing with a gap behind this connection is arranged coaxially with the housing axis A outside the housing. The gap extends axially further across the measuring element than the region of the force path in the direction away from the pressure space.
Abstract: A circuit for a charge amplifier for converting piezoelectric measurement signals continuously sets the output signal of the amplifier to a value close to zero, such that a reset switch becomes unnecessary. The amplifier includes a pulse generator that provides the output signal of the amplifier in the form of pulses, which are easy to transmit with low interference. The pulse frequency is proportional to the rate of change of charge. The pulses, which are added in a counter, represent a value proportional to the change in the charge since the last counter reset, which is proportional to the present measured value at the measurement element.
Abstract: A measuring arrangement for measuring one or more pressures and/or temperatures in an injection-molding system includes a base plate and at least one mould insert with at least part of a cavity. The base plate and the mould insert rest against one another in a releasable manner on at least one common separating surface. The mould insert includes at least one sensor for detecting pressures and/or temperatures as well as a transmitter module on the separating surface, which transmitter module is electrically connected to the sensor. The base plate includes a receiving module on the separating surface opposite the transmitter module, wherein measurement data can be transmitted from the transmitter module to the receiving module. The transmitter module and the receiving module on the separating surface are essentially planar and can be separated without force.
Abstract: A pressure measuring device suitable for disposition in a chamber of an internal combustion engine. The pressure measuring device has a housing, a force transmitting element that is effectively connected to a pressure sensor, and a sensor cage that surrounds the pressure sensor. The sensor cage is connected to the housing by a circumferential weld seam only at one connection segment of the housing. In this way, it is possible to achieve a defined pre-tensioning of a metal diaphragm that is connected on the one hand to the sensor cage and on the other hand to the force transmitting element.
Type:
Grant
Filed:
January 12, 2007
Date of Patent:
August 28, 2012
Assignees:
Robert Bosch GmbH, Kistler Holding AG
Inventors:
Christoph Kern, Reinhold Hess, Reiko Zach, Michael Kleindl, Peter Wolfer, Steffen Schott, Claudio Cavalloni, Pavlo Saltikov, Michael Mueller, Andrea Bertola
Abstract: A pressure sensor for measurements in a chamber of an internal combustion engine, in particular a pressure-measuring glowplug, comprises a housing, a pressure element for picking up a pressure, and a measuring element arranged in the housing downstream of the pressure element in the direction of the pressure and having a sensor element and a diaphragm. This diaphragm is permanently connected at its first end to the pressure element, and at its second end it is directly or indirectly permanently connected to the housing at a connection, with the pressure element being supported on the measuring element via the diaphragm.
Abstract: An electromechanical joining module for applying a linear force to a joining element, includes a stator, which represents the stationary part of the joining module, a tappet, which can be linearly extended out of the stator and which has an outer tappet end, and a force transducer for detecting forces that are applied to the joining element during the operation of the tappet end. The force transducer is attached in the area of the tappet end and has sensor electronics for wirelessly transmitting measurement data by means of near-field and far-field telemetry.
Type:
Application
Filed:
July 7, 2010
Publication date:
April 19, 2012
Applicant:
KISTLER HOLDING AG
Inventors:
Andreas Kirchheim, Jochen Schneider, Daneil Otter, Georges Schaffner, Rolf Thiel
Abstract: The invention describes membrane protections for a sensor having a membrane, which membrane protection does not increase the external diameter of a sensor and can be easily removed from a hole in which the sensor is installed. The membrane protection can be fastened to an inner surface of a front region of a sensor using a clip system and thus forms a unit with the sensor. The membrane protection for a sensor which can be screwed into a hole of an installation part and is provided with a membrane in the front region. The membrane protection has a clip system in order to be internally fastened in the front region of such a sensor. The sensor has a membrane protection which is internally fitted to the front region of the sensor using a clip system.