Abstract: The present invention relates to an electronic device which has a male connection portion for connection with a female snap. The male connection portion comprises a conductive stud which is or can be screwed in to a portion of the electronic device via threading on the stud. Furthermore, an adhesive can be added to the stud or an opening of the electronic device in order to provide a secure and water tight seal between the stud and the electronic device. The stud generally makes an electrical connection between a conductive portion of the female snap and an electronic component within the electronic device. The male portion of the stud may also comprise a cavity or opening for receiving a tool for screwing the stud in to the electronic device and/or for receiving a guiding pin of the female snap portion.
Abstract: A clasp according to embodiments of the present invention is particularly well suited to wrist bands of diving watches, specifically metallic link type wrist bands. Such a clasp can be worn in a first closed position during normal usage against a user's bare wrist. The same clasp can then extend so that the same watch and wrist band can be worn by a user over some additional material, such as a dive suit. The extension of the clasp is beneficial as it requires no tools, is simple and reliable.
Type:
Grant
Filed:
June 10, 2011
Date of Patent:
July 29, 2014
Assignee:
Suunto Oy
Inventors:
Timo Yliluoma, Jukka Manni, Mikko Sepänniitty
Abstract: The present invention relates generally to an electrode assembly including a thin, low thickness snap for use, for example, in a heart rate monitoring. The electrode assembly can come in the form of a kit with multiple pieces or in an assembled form. The electrode assembly includes two electrodes with respective snaps connected by a non-stretchable material portion. The electrode assembly can be easily integrated into a garment with minimal interference in the usability of the garment itself. Additionally, the present invention relates to a garment having integrated therein an electrode assembly.
Abstract: The invention relates to a casing for electronic and similar devices. Such casing has a body part and a cover part for covering and to seal the content in the body part. The cover part is a flexible and impermeable foil that extends over an aperture in said body part and onto an essentially even surface surrounding said aperture. The cover part is attached to said surrounding surface by an adhesive.
Abstract: The present invention relates generally to a thin, low thickness snap for use, for example, in a heart rate monitor belt. The snap can be integrated or built directly in to a heart rate monitor belt. Furthermore, the heart rate monitor belt can be integrated within a textile or garment, for example a compression shirt, sports bra or cycling shorts. The snap can be flushly integrated into the belt or garment such the snap does not take away from the general wearability of the heart rate monitor belt or garment.
Abstract: The present invention relates to an electronic device which has a male connection portion for connection with a female snap. The male connection portion comprises a conductive stud which is or can be screwed in to a portion of the electronic device via threading on the stud. Furthermore, an adhesive can be added to the stud or an opening of the electronic device in order to provide a secure and water tight seal between the stud and the electronic device. The stud generally makes an electrical connection between a conductive portion of the female snap and an electronic component within the electronic device. The male portion of the stud may also comprise a cavity or opening for receiving a tool for screwing the stud in to the electronic device and/or for receiving a guiding pin of the female snap portion.
Abstract: A method and an electronic device for determining the direction of a magnetic field, in which a mobile electronic compass device is used to measure three field vectors of the magnetic field the desired number of times. From each measurement, a data point (p1-p6) is formed in a three-dimensional co-ordinate system, for which measured data points a common reference point (C) is calculated. The location of the device is determined relative to the reference point in said co-ordinate system and the co-ordinates of the reference point obtained are compared to the co-ordinates of at least one previous reference point, and the co-ordinate values of the reference point are calibrated, after which the direction of the magnetic field is indicated with the aid of the reference point.
Abstract: An article of wearing apparel provided with a sensor for measuring a physiological signal, and a method for manufacturing the wearing apparel provided with a sensor. The wearing apparel includes a flexible substrate and the sensor includes at least one electrode, which has a signalling surface, and which faces in the same direction as the first surface of the flexible substrate. In addition, the sensor includes a signal transmission conductor, which is connected electrically to the electrode. The signal transmission conductor is attached in a watertight manner to the second surface of the substrate. The wearing apparel is comfortable to the user, and sensor in the wearing apparel is reliable, economical to manufacture, and waterproof.
Type:
Grant
Filed:
September 14, 2012
Date of Patent:
June 10, 2014
Assignee:
Suunto Oy
Inventors:
Phillip Lindberg, Kimmo Pernu, Jukka Manni, Jorma Liljemark, Tapio Savolainen, Hannu Putkinen, Jari Akkila, Satu Rahkonen, Erik Lindman
Abstract: The invention concerns a method, device and computer program product for monitoring or planning a dive of a diver. The method includes providing data on the composition of gases breathed by the diver during the dive, providing data on the depth or ambient pressure of the diver, and using a model to provide a safe ascent profile for the diver based on the data on the composition of gases and on the depth or ambient pressure. According to the invention, the method further comprising detecting, based on the data on the composition of gases, a gas composition change which may lead to a deep tissue isobaric counter diffusion situation, and the model comprising means for immediately temporally retarding the ascent profile if such gas composition change is detected. The invention can be used to mitigate the harmful effects of dangerous breathing gas changes during diving.
Abstract: A diving computer, a computer program, and a method for determining ascent time in a diving computer. Determining ascent time is accomplished by initially receiving initial data on the available gases and measuring the prevailing pressure and diving time. Then, based on information received in connection with the initial data, the gases are divided into at least primary (A) and secondary (B) gases, and an optimal dive plan is calculated based on the initial data of the primary gases (A), the prevailing pressure, and a surfacing model.
Type:
Grant
Filed:
March 26, 2010
Date of Patent:
February 25, 2014
Assignee:
Suunto Oy
Inventors:
Toni Lauri Leskelä, Kari Markus Mäkiniemi, Erik Arvid Lindman
Abstract: The present invention relates to a system for attaching a module to an object comprising a module having an oblong shape, and an elastic ring. Each elongated end of the module has a recess with an interior surface formed by an upper and lower lip, and the distance between the centres of the interior surfaces of the recesses is substantially equal to the diameter of the elastic ring such that the module can be releasably affixed to the elastic ring. The system provides easy and reliable attachment of the module to a piece of clothing, for example.
Type:
Application
Filed:
March 15, 2013
Publication date:
January 16, 2014
Applicant:
SUUNTO OY
Inventors:
Kimmo Pernu, Tapio Selby, Timo Yliluoma
Abstract: The invention relates to a method and a system for determining a target variable to be measured in a mobile device. A first physical variable is measured with the aid of a first sensor and a second physical variable with the aid of a second sensor. The second physical variable is different to the first physical variable, or is measured using a different technique. The value of the target variable is calculated with the aid of the measurement of the first and second physical variables. An estimate for the target variable is determined with the aid of at least the measurement of the first physical variable. At least a first error estimate is determined, which depicts the accuracy of the measurement of the first physical variable. The estimate of the target variable is filtered using both the first error estimate and the measurement of the second physical variable.
Abstract: The invention relates to a portable electronic device and method for determining altitude. The device can comprise a satellite-positioning sensor for determining the elevation of the device on the basis of satellite data, a barometric sensor for measuring atmospheric-pressure information and/or an acceleration sensor for measuring acceleration information, and means for determining the altitude reading on the basis of the satellite-based elevation and the atmospheric-pressure and/or acceleration information. According to the invention, the means for determining the altitude reading are arranged to calculate a corrected altitude reading with the aid of the rate of change in elevation determined at least partly on the basis of the elevation determined on a satellite basis and atmospheric-pressure and/or acceleration information. With the aid of the invention, the altitude profile of exercise can be measured precisely.
Abstract: The present invention relates generally to a thin, low thickness snap integrated within or built within a heart rate monitor belt or snap and electrode assebly. The snap can be integrated or built directly in to a heart rate monitor belt. Furthermore, the heart rate monitor belt can be integrated within a textile or garment, for example a compression shirt, sports bra or cycling shorts. The snap can be flushly integrated into the belt or garment such the snap does not take away from the general wearability of the heart rate monitor belt or garment.
Abstract: A sensor for measuring a physiological signal and a method for manufacturing such a sensor. Such a sensor includes a flexible substrate and at least one electrode, which has a signalling surface, which faces in the same direction as the first surface of the flexible substrate. In addition, the sensor includes a signal transmission conductor, which is connected electrically to the electrode. The signal transmission conductor is attached in a watertight manner to the second surface of the substrate. The sensor is reliable, economical to manufacture, and comfortable to the user.
Type:
Grant
Filed:
June 8, 2007
Date of Patent:
February 26, 2013
Assignee:
Suunto Oy
Inventors:
Phillip Lindberg, Kimmo Pernu, Jukka Manni, Jorma Liljemark, Tapio Savolainen, Hannu Putkinen, Jari Akkila, Satu Rahkonen, Erik Lindman