Patents Assigned to Mettler-Toledo, Inc.
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Patent number: 7684946Abstract: Weigh-in-motion (WIM) systems for weighing moving vehicles, the systems having the ability to automatically determine and periodically apply calibration factors to WIM scale readings. Auto-calibration may include transferring both WIM and static weight readings for the same vehicle to a database, associating the weight readings, collecting a number of such weight readings, and analyzing the differences between the WIM and static weight readings to calculate WIM scale calibration factors. The calibration factors may be based on vehicle characteristics such as vehicle weight, vehicle class and/or vehicle speed at the WIM scale.Type: GrantFiled: December 17, 2007Date of Patent: March 23, 2010Assignee: Mettler-Toledo, Inc.Inventor: Robert Susor
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Publication number: 20100049616Abstract: A system and method for controlling the inventory of perishable goods. An advanced weighing scale serves as a portal to the output of a perishable goods inventory management software application and a perishable goods price optimization software application that receive and analyze inventory and sales data relating to perishable goods of interest. Inventory suggestions and/or price changes recommended by the software applications with respect to a particular perishable good of interest are viewable directly at a corresponding advanced weighing scale. Operation of the perishable goods inventory management software application and perishable goods price optimization software application may be controlled by the advanced weighing scale. An electronic pricing device may be included for displaying the price of a perishable good of interest.Type: ApplicationFiled: August 21, 2008Publication date: February 25, 2010Applicant: Mettler-Toledo, IncInventor: Brian Hipsher
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Publication number: 20100042483Abstract: A system and method for providing consumer information on a printed coupon or label. Consumer information may be gathered/obtained in a number of ways and embedded on a coupon or label in the form if a bar code or other readable format. When consumer information is embedded on a coupon, the promotion presented by the coupon may be selected at least in part using the consumer information. The consumer information may be subsequently collected at a POS location or may be transmitted at the time of coupon/label printing. Additional information about a consumer may be collected subsequent to printing of a coupon or label, and such information may also be collected. The consumer information may be provided to a marketer or other interested recipient.Type: ApplicationFiled: August 12, 2008Publication date: February 18, 2010Applicant: METTLER-TOLEDO, INC.Inventor: Brian Hipsher
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Publication number: 20100000801Abstract: A weighing scale adapted to automatically present one or more recipes to a user thereof, and a method of presenting such recipes. The recipes are preferably, but not necessarily, related in some way to a product being weighed or otherwise examined by the weighing scale. A recipe software application selects one or more recipes from a database of recipes and presents the recipes on one or more display devices of the weighing scale. One or more of the presented recipes may be selected by a user for delivery in one or more forms. Recipes may be delivered to a user according to the present invention, by one or more of providing the user with a printout of the selected recipe(s), by emailing the selected recipe(s) to a user, and/or by providing the user with a website URL from which the selected recipe(s) can be downloaded.Type: ApplicationFiled: July 2, 2008Publication date: January 7, 2010Applicant: METTLER-TOLEDO, INC.Inventors: Richard E. Smith, Brian Hipsher, Kevin A. Russo, Ronald W. Tamkin, Frank Beurskens
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Patent number: 7640130Abstract: Systems and methods for effectuating verification and certification of verifiable devices. Preferably, but not necessarily, such certification occurs or is communicated remotely. A verifiable device may be directly or indirectly connected to an appropriate regulatory agency through a communication mechanism. One or more tests may be performed on the verifiable device to verify that the device is functioning properly. The test results are directly or indirectly transmitted to the regulatory agency. If the tests were passed then the verifiable device may be approved for use. When self-certification or remote certification is provided for, the need for in-person verification and certification procedures by agency personnel may be eliminated.Type: GrantFiled: October 24, 2007Date of Patent: December 29, 2009Assignee: Mettler-Toledo, Inc.Inventors: John Scott Churan, Philip Mark Metzler
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Publication number: 20090306929Abstract: An ultrasonic dimensioning system and method by which objects can be quickly and accurately measured (dimensioned). The system includes at least a stable object support surface, a number of ultrasonic receivers, and an ultrasonic transmitter. The ultrasonic transmitter is preferably part of a pointer device that is properly positioned relative to an object to be measured, the proper position(s) depending on the shape of the object. Subsequent transmission of ultrasonic pulses (waves) from the pointer device are received by the ultrasonic receivers. The time intervals between transmission and reception of the ultrasonic pulses (waves) are used to determine the distance of the pointer from the receivers, which distances are subsequently used to calculate the dimensions/volume of the object.Type: ApplicationFiled: June 4, 2008Publication date: December 10, 2009Applicant: METTLER-TOLEDO, INC.Inventors: Wenquan Li, Philip M. Metzler, Hugh G. Hindmon, John Scott Churan, Helen Winfrey
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Patent number: 7612302Abstract: A system for alerting an operator of a weighing apparatus is described. The weighing apparatus may be capable of displaying a message in a message area to an operator. The message may be displayed in response to a command sent from a remote device.Type: GrantFiled: April 4, 2007Date of Patent: November 3, 2009Assignee: Mettler-Toledo, Inc.Inventors: Ronald W. Tamkin, J. Thomas King, Kevin A. Russo
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Publication number: 20090260924Abstract: A 3-point suspension forklift scale adapted for quick and easy attachment/detachment to/from a forklift—without the need for leveling or other pre-operation setup procedures. Further, due to the single lower reaction point of the forklift scale, there is no concern that the initially installed position of the forklift scale will change during use as a result of a loose adjuster, repositioning due to impact, etc. The forklift scale is designed to accurately determine the weight of a load placed on the forks or other lifting elements of the forklift, regardless of the position of the load thereon. Preferably, a forklift scale of the present invention includes a central viewing window that allows an operator see through the forklift scale when operating an associated forklift.Type: ApplicationFiled: April 18, 2008Publication date: October 22, 2009Applicant: METTLER-TOLEDO, INC.Inventors: Thomas S. Rice, Ben T. Siefker, Mitchell A. Tobias, Darin E. Foley
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Publication number: 20090151421Abstract: Weigh-in-motion (WIM) systems for weighing moving vehicles, the systems having the ability to automatically determine and periodically apply calibration factors to WIM scale readings. Auto-calibration may include transferring both WIM and static weight readings for the same vehicle to a database, associating the weight readings, collecting a number of such weight readings, and analyzing the differences between the WIM and static weight readings to calculate WIM scale calibration factors. The calibration factors may be based on vehicle characteristics such as vehicle weight, vehicle class and/or vehicle speed at the WIM scale.Type: ApplicationFiled: December 17, 2007Publication date: June 18, 2009Applicant: Mettler-Toledo, Inc.Inventor: Robert Susor
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Publication number: 20090144717Abstract: A Scale Integration Framework that allows secondary applications installed on a PC-based scale or at a remote location to interact with a Scale Application that controls the scale equipment in accordance with applicable requirements. The scale integration framework comprises a plurality of Integration Points within the Scale Application such that other value added applications can interact with the Scale Application at these Integration Points.Type: ApplicationFiled: November 29, 2007Publication date: June 4, 2009Applicant: Mettler-Toledo, Inc.Inventors: Ronald W. Tamkin, Daniel J. Hackathorne, Kevin A. Russo
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Publication number: 20080271930Abstract: A weighing apparatus having a weighing system, a drive system, and a vertical force minimizing system. The weighing system may include a load receiving surface and a plurality of load cells. The drive system produces rotation of the load receiving surface about its vertical axis. The vertical force minimizing system minimizes the amount of vertical force that is applied to the load cells through the drive system, while simultaneously transmitting forces in the transverse direction to provide for rotational movement of the load receiving surface.Type: ApplicationFiled: July 21, 2008Publication date: November 6, 2008Applicant: Mettler-Toledo, Inc.Inventors: Craig M. Draper, Thomas S. Rice
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Patent number: 7441436Abstract: A weighing apparatus calibration method uses a test mass, a material and a terminal to calculate and compare the total weight of the test mass and material to determine if the total capacity of the weighing apparatus has been calibrated. A system for managing calibration of a weighing apparatus is also described.Type: GrantFiled: March 14, 2006Date of Patent: October 28, 2008Assignee: Mettler-Toledo, Inc.Inventors: Doug Bliss, John Moorman, Venus Simmons
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Publication number: 20080245581Abstract: A system for alerting an operator of a weighing apparatus is described. The weighing apparatus may be capable of displaying a message in a message area to an operator. The message may be displayed in response to a command sent from a remote device.Type: ApplicationFiled: April 4, 2007Publication date: October 9, 2008Applicant: Mettler-Toledo, Inc.Inventors: Ronald W. Tamkin, J. Thomas King, Kevin A. Russo
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Publication number: 20080245579Abstract: A weighing apparatus adapted to facilitate process management and methods associated therewith are described. The weighing apparatus may include a process control interface for including process data onto a label for managing a process.Type: ApplicationFiled: April 4, 2007Publication date: October 9, 2008Applicant: Mettler-Toledo, Inc.Inventors: Daniel J. Hackathorne, Kevin A. Russo, J. Thomas King
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Publication number: 20080247107Abstract: A weighing apparatus having a circuit for monitoring, detecting and recovering from an overcurrent condition is described. The circuit may include a switch, current sensor, latch circuitry and microprocessor. The microprocessor may allow the circuit to recover from the overcurrent condition.Type: ApplicationFiled: April 5, 2007Publication date: October 9, 2008Applicant: Mettler-Toledo, Inc.Inventors: Jeng-Hua Lin, Art Towslee, Russell Vires
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Patent number: 7402762Abstract: A weighing apparatus having a weighing system, a drive system, and a vertical force minimizing system is described. The weighing system may include a load receiving surface and a plurality of load cells. The drive system may be any system which may cause the load receiving surface to rotate about its vertical axis. The vertical force minimizing system may be any system which may reduce the amount of vertical force that may be applied to the load cells through the drive system while effectively transmitting necessary forces in the transverse direction to provide rotational motion.Type: GrantFiled: October 3, 2006Date of Patent: July 22, 2008Assignee: Mettler-Toledo, Inc.Inventors: Craig M. Draper, Thomas S. Rice
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Publication number: 20080103716Abstract: Systems and methods for effectuating verification and certification of verifiable devices. Preferably, but not necessarily, such certification occurs or is communicated remotely. A verifiable device may be directly or indirectly connected to an appropriate regulatory agency through a communication mechanism. One or more tests may be performed on the verifiable device to verify that the device is functioning properly. The test results are directly or indirectly transmitted to the regulatory agency. If the tests were passed then the verifiable device may be approved for use. When self-certification or remote certification is provided for, the need for in-person verification and certification procedures by agency personnel may be eliminated.Type: ApplicationFiled: October 24, 2007Publication date: May 1, 2008Applicant: Mettler-Toledo, Inc.Inventors: John Scott Churan, Philip Mark Metzler
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Publication number: 20080078588Abstract: A weighing apparatus having a weighing system, a drive system, and a vertical force minimizing system is described. The weighing system may include a load receiving surface and a plurality of load cells. The drive system may be any system which may cause the load receiving surface to rotate about its vertical axis. The vertical force minimizing system may be any system which may reduce the amount of vertical force that may be applied to the load cells through the drive system while effectively transmitting necessary forces in the transverse direction to provide rotational motion.Type: ApplicationFiled: October 3, 2006Publication date: April 3, 2008Applicant: METTLER-TOLEDO, INC.Inventors: Craig M. Draper, Thomas S. Rice
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Publication number: 20070272732Abstract: A system and method for weighing and dimensioning an object is described. The system may include a weighing apparatus and a dimensioner. The dimensioner may begin dimensioning the object after receiving a signal from the weighing apparatus. In one exemplary embodiment, a terminal may send the signal. The terminal may also receive and display the results received from the weighing apparatus and dimensioner.Type: ApplicationFiled: November 7, 2006Publication date: November 29, 2007Applicant: Mettler-Toledo, Inc.Inventor: Hugh G. Hindmon
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Publication number: 20070245837Abstract: A tensile force measuring device provides improved linearity and temperature transient behavior. A column load cell (10) in the device is connected at its ends to a first and a second roller chain portion (34, 36), which are in turn connected to the tensile force, to dispose the column load cell to the tensile force between the chain portions. The roller chain portions are connected to the load cell in mutually perpendicular orientation. The load cell has notches (18) formed in the side thereof to equalize the strain thereupon when tensile load is applied. Longitudinal and transverse strain gages (20) are positioned longitudinally intermediate to the notches, and may be on a gaging web (22).Type: ApplicationFiled: April 20, 2006Publication date: October 25, 2007Applicant: Mettler-Toledo, Inc.Inventors: Jon SCOTT, Tom LEAHY, Philip MARIANI