DE202018004066U1 - Measuring device / charging station arrangement with battery charging and data transmission interface - Google Patents

Abstract

Arrangement, consisting of a portable measuring device (1) for noninvasive recording of bioelectric signals, in particular of electrocardiogram (ECG) and heart rate information on the upper body of a test subject and with the measuring device (1) detachable charging station (8), wherein the measuring device (1) a Measuring device housing (4) with a battery held therein (6) and at least two, a measuring device housing wall (10) passing through measuring electrodes (2, 3), wherein the measuring electrodes (2, 3) with a within the meter housing ( 4) arranged circuit board (5) for receiving and at least partially further processing of the measuring electrodes (2, 3) transmitted signals are in conductive connection and wherein in the coupled position of the measuring device (1) and charging station (8) provided on these charge current and / or data transmission interfaces (13, 13 ') are in conductive contact with each other, characterized in that the measuring device (1) and the charging station (8) in coupled position by means of a magnetic holding device (9) are adhered to each other, wherein the magnet holding device (9) comprises at least one permanent magnet element (20) and at least one associated by the permanent magnet element (20) magnetically attracted counterpart (21), wherein either the permanent magnet element (20) Side of the measuring device (1) and the counterpart (21) on the side of the charging station (8) is arranged or vice versa, the permanent magnet element (20) on the side of the charging station (8) and the counterpart (21) on the side of the measuring device (1) is.

Description

The invention relates to an arrangement consisting of a portable measuring device for noninvasive recording of bioelectric signals, in particular of electrocardiogram (ECG) and heart rate information on the upper body of a test subject and a docking with the meter charging station, wherein the meter has a meter housing with a therein held and at least two, a measuring device housing wall passing through measuring electrodes, wherein the measuring electrodes with a disposed within the meter housing circuit board for receiving and at least partially processing of transmitted via the measuring electrodes signals are in conductive connection and wherein in the coupled position of the measuring device and Charging station at these intended charge current and / or data transmission interfaces are in conductive contact with each other, according to the preamble of claim 1.

Portable measuring devices of the aforementioned type are used in the health and fitness sector and are used in particular for the prevention and performance diagnostics. In their operational position, generic measuring devices are usually held in a chest belt, wherein the chest belt has corresponding receptacles for the measuring electrodes protruding from the measuring device. Integrated in the chest belt recordings or sensor elements are then in conductive contact with the measuring electrodes of the portable meter. Between the measuring electrodes, an electrical signal in the form of a potential difference is measured, this signal being transmitted to a circuit board with a processor device for further electronic processing. The electrical signals detected on the upper body of the test subject are, in particular, the electrical excitation which originates from the contractions of the cardiac muscle, more precisely from the so-called sinus node (Nodus sinuatrialis), which is located in the right atrium (atrium dextrum) of the heart and which the primary electrical clock is the heartbeat movement. The electrical voltage changes on the heart can be measured via measuring electrodes on the body surface and recorded over time.

Such ECG (electrocardiogram) data obtained can be further processed with an associated HRV (heart rate variability) evaluator. The determination of heart rate variability (HRV) and associated physiological characteristics, including heart rate, QPA (pulse-to-breath ratio), VQ (vegetative quotient), SDNN _RR (standard deviation of normal-to-normal intervals) is known in the art and makes it possible to detect the finest changes in the regulatory system of the human body. The autonomic nervous system, also called vegetativum, regulates, among other things: heart activity, blood pressure, distribution of bloodstreams, breathing depth, respiratory rate, thermoregulation, glandular secretion and gastric and intestinal motility. It is divided into two subsystems, the sympathetic and the parasympathetic nervous system. The heart rate or heart rate is determined on the basis of time indices of detected RR intervals. A RR interval here refers to the distance between two R waves of an electrocardiogram measured along the time axis and thus the time interval between two successive pulse waves or contractions of the heart muscle of the test subject.

From the temporal variability of the RR intervals, the heart rate variability (HRV) or corresponding HRV function parameters are determined by means of standardized mathematical operations. Heart rate variability represents a mathematical correlate for adapting the heart rate to changing requirements in the human organism and is regarded as an expression of neurovegetative regulatory capacity. The RR intervals are measured, for example, in the unit milliseconds [ms] and usually fluctuate between approx. 700 and 1200 ms. For an HRV frequency analysis, other interbeat intervals or derived indication sizes could be used instead of the R-waves or RR intervals. To describe the tone of individual areas of the autonomic nervous system, a spectral analysis is performed. The measurement data of the heart rate are in this case transmitted by means of mathematical method from the time domain in the frequency domain and displayed as a power spectrum. In this way, various other frequencies present in the heart rate can be made visible, which are assigned empirically to specific body rhythms such as respiratory or blood pressure. ECG-based measuring devices or processor devices for determining HRV function parameters according to the prior art are known, for example, from US Pat DE 603 06 856 T2 or the DE 10 2006 039 957 B4 known).

The test subjects may be humans as well as mammals such as, in particular, horses, dogs and cats. The measuring device is in each case arranged in the vicinity of the heart near the chest or back, i. in the area of the ribs or just above this. The detection and at least partial further processing of the signals or information received via the measuring electrodes take place on a circuit board held in the housing of the portable measuring device. Electronic circuits integrated on the board may communicate with any other memory devices, microprocessors, or output devices disposed internally or externally of the housing in a wired or wireless manner.

After being used on the test subject, the portable measuring device is docked to a corresponding charging station, which can serve with the specially provided interfaces both the transmission of an electric charging current to the battery contained in the meter as well as the transmission of data stored in the meter during its use on the Determined upper body of a test subject and kept on a provided in the meter memory device.

For coupling the measuring device and charging station, there is the option of locking the usually button-shaped measuring electrodes in corresponding receptacles of the charging station housing in the same way as in the electrode holders of the chest belt. However, such a snap action as well as a subsequent lifting of the meter from the charging station is always associated with a more or less violent jerk, which affects on the one hand the ease of use and on the other hand, the life of the meter, especially this every time you put on and off the charging station is subjected to unnecessary vibration, which adversely affects the electronics and composite components of the meter. Last but not least, such a stress is unnecessary, since it is not necessary in the loading position or in the coupled position of measuring device and charging station to embed the measuring electrodes by means of a press fit or latching connection in a corresponding receiving device as during use on the chest belt in motion test subject to achieve a perfect contact and thus error-free measurement data sets is essential.

Furthermore, it can be a problem in practice that the meter is placed in the wrong position on the charging station. The mistake of coupling the measuring device upside down or rotated by 180 ° at the charging station is obvious insofar as generic measuring devices - in particular when viewed in plan view, i. when viewed on a the measuring electrodes and the charging current / data transmission interfaces opposite top of the meter housing - usually have a symmetrical outer shape.

It is therefore an object of the present invention to enable a reliable, correct polarity and the life of generic measuring instruments gentle coupling of charging station and portable meter. These objects are achieved by an arrangement having the characterizing features of claim 1. The dependent claims describe manufacturing and assembly technology advantageous developments of the invention.

An objective arrangement comprises a portable measuring device for non-invasively detecting bioelectric signals on the upper body of a test subject and a charging station which can be coupled to the measuring device. The measuring device has a measuring device housing with a battery held therein and at least two measurement electrodes passing through a measuring device housing wall, wherein the measuring electrodes are conductively connected to a circuit board arranged inside the measuring device housing for receiving and at least partially processing signals transmitted via the measuring electrodes stand. In a coupled position of gauge 1 and charging station are in conductive contact with each other at these intended charge current and / or data transmission interfaces. According to the invention, it is provided that the measuring device and the charging station are adhered to one another in the coupled position by means of a magnetic holding device, the magnetic holding device comprising at least one permanent magnet element and at least one associated counterpart magnetically attracted by the permanent magnet element, wherein either the permanent magnet element on the side of the measuring device and the counterpart is arranged on the side of the charging station or vice versa, the permanent magnet element is arranged on the side of the charging station and the counterpart on the side of the measuring device.

In this way, a precisely defined and supported by magnetic force coupling of meter and charging station allows. The two components join together automatically as soon as they have been approached by the user sufficiently. Correspondingly shaped housing geometries ensure a predefined and precisely fitting joining of measuring device and charging station. The adhesive connection between meter and charging station is easily solvable by hand and yet solid enough to a permanent contact of the charging current / data transmission interfaces of the meter with corresponding charging current / data transmission interfaces of the charging station and thus a flawless in the stationary state of the meter and charging station To ensure data transmission as well as a reliable battery charge. In addition to the lower manual use of force and the more pleasant feel when coupling and decoupling of charging station and meter accounts for a measuring device charging station arrangement according to the invention also unnecessary vibration of the components.

For mating and arrangement of the permanent magnets and counterparts of the magnetic holding device, there are several possibilities, which will be explained below. As a material for the production of the permanent magnet element, any common in the application technology permanent magnet material can be used, in particular ferro- and Ferrimagnetic materials such as alloys of iron, cobalt, nickel or certain ferrites whose elementary magnets or atomic spins were aligned in parallel by a process of magnetization. Magnetic plastic composites and vulcanizates can also be used here. The counterpart of the magnetic holding device could be a permanent magnet element, the counterpart must be turned in the right polar magnet to the corresponding permanent magnet element (north to south pole or south to north pole) or a gleichpolige pairing and a concomitant repulsive effect must be prevented. In the expedient and inexpensive embodiment trap, however, the counterpart of the magnetic holding device is made of a simple ferromagnetic material such as an iron plate.

According to a preferred embodiment of the invention, it is provided that the permanent magnet element provided on the side of the measuring device is arranged within the measuring device housing, preferably on the inside of a measuring device housing wall facing the charging station. Likewise, the counterpart on the side of the charging station is preferably arranged inside the charging station housing, preferably on the inside of a charging station housing wall facing the measuring device. Permanent magnet elements and counterparts are here installed in a protected, invisible from the outside way and thus deprived of unauthorized manipulation. Alternatively, it would also be conceivable that the permanent magnet element and / or counterpart are each arranged on an outer side of the measuring device housing or of the charging station housing.

A particularly effective development of magnetic attraction between the measuring device and the charging station or a concomitant adhesive effect results by the permanent magnet element and the counterpart in a coupled position or in the loading position of the measuring device and charging station - considered in one of the longitudinal extent of the measuring electrodes and their longitudinal axes Viewing direction - are arranged one above the other, wherein the successive projected surfaces of the permanent magnet element and the corresponding counterpart overlap each other at least in sections, preferably approximately congruent.

According to a further preferred embodiment variant, it is provided that a charging station housing wall facing the measuring device preferably has recessed contact sections provided for receiving the measuring electrodes of the measuring device. In particular, the contact sections may have a geometry which corresponds at least in sections to the outer contour of end regions of the measuring electrodes facing the charging station or at least partially contacting them in a coupled position of the measuring device and charging station.

The measuring electrodes are thus in the coupled position of the arrangement according to the invention at defined contact portions of the charging station or are just spaced therefrom. In an advantageous embodiment, the measuring electrodes are at least partially sunk within the contact portions of the charging station housing. The measuring device and the charging station come together in a compact manner to concern. By the measuring electrodes are centered during the coupling process in corresponding receptacles or contact sections, a positionally accurate pairing of meter and charging station is possible.

According to a specific embodiment variant, it is possible to dispense with the fitting of the measuring device with an additional counterpart in that at least one of the measuring electrodes, preferably both measuring electrodes, is / are made of a magnetically attractable, in particular ferromagnetic material, and thus itself as a counterpart (e ) to the / the permanent magnet element (s) arranged on the side of the charging station. In this case, a permanent magnet element is arranged in the region of at least one contact section of the charging station, preferably at both contact sections and preferably at its inner side facing the inside of the charging station. An arrangement of the permanent magnet element (s) would in principle also be possible on the outside of the contact sections or on areas of the charging station housing adjacent to the measuring electrodes in the coupled position of the arrangement. Instead of a ferromagnetic material, however, the measuring electrodes could also be made of ferrimagnetic material, of other commercially available magnetic alloys, possibly also of magnetic (that is to say mixed with magnetic materials) or vulcanizate material or plastic.

According to a further embodiment, the permanent magnet element and / or the counterpart is designed as a substantially plate-shaped element, which is held in a corresponding receptacle of the measuring device housing or of the charging station housing. According to a preferred arrangement variant in this case facing each other outer surfaces of permanent magnet element and corresponding, provided with this for mating counterpart in the coupled position of the arrangement not more than 10 mm, more preferably not more than 5 mm apart. As a plate-shaped element is in the present Associated with each component, which has a comparatively small cross-sectional thickness compared to the extent of its length, width or diameter extension. The plate-shaped element is preferably round or oval, but may also have any other circumferential geometry and be formed, for example, angular, polygonal or irregular.

In order to enable a centric magnetic force action between measuring device and charging station, it is provided according to a preferred embodiment that one or more permanent magnet elements and one or more corresponding counterparts - viewed in a plan view of the arrangement or in the coupling direction of the measuring device and charging station - respectively in the middle Third of the meter and the charging station are arranged.

According to a further embodiment variant, provision is made for at least one first positive or negative profile to be provided on the outside of the measuring device housing remote from the printed circuit board, which corresponds to at least one second negative / positive profile of the charging station housing in FIG Intervention can be brought to ensure in a coupled position of the measuring device and charging station a polar positioning of at least one provided on the meter charging current and / or data transmission interface with at least one corresponding charging current and / or data transmission interface of the charging station. In the present context, complementary / complementary profiles (also referred to as parent / parent profiles) are understood as positive / negative profiles. It may be any, e.g. concave and / or convex, orthogonal, polygonal or even amorphous elevations and depressions act.

By the permanent magnet elements and counterparts arranged in / on the measuring device and in / at the charging station are pulled together by magnetic force action, the positive / negative profiles arranged on the measuring device housing and on the charging station housing also contact each other. A reversed placement of the meter on the charging station is made impossible in this way, or it would be immediately noticeable to a user due to the prevented interference between meter housing and charging station housing. The mistake of coupling the measuring device upside down or rotated by 180 ° at the charging station is obvious insofar as generic measuring devices - especially when viewed in plan view, i. when viewed on a the measuring electrodes and the charging current / data transmission interfaces opposite top of the meter housing - usually have a symmetrical outer shape. In any case, a swapping of interfaces during a loading or data transmission process is reliably prevented by the measure according to the invention.

According to a particularly preferred embodiment, at least two positive or negative profiles are provided both on the measuring device housing and on the charging station housing, which each have a region of the measuring device and charging station housing adjacent to the measuring electrodes or the corresponding contact sections are arranged and of which at least one of the positive or negative profiles - viewed in plan view of the arrangement or in the coupling direction of the measuring device and charging station - preferably has an approximately circular segment-shaped base geometry.

• 1 eine erfindungsgemäße Ladestation in perspektivischer Draufsicht
• 2 ein erfindungsgemäßes Messgerät in perspektivischer Unteransicht
• 3 eine Schnittansicht eines erfindungsgemäßen Ladestations-Gehäuses
• 4 eine Unteransicht eines ersten Gehäuseteils des Ladestations-Gehäuses
• 5 das ersten Gehäuseteil des Ladestations-Gehäuses gemäß 4, bestückt mit Dauermagnetelementen
• 6 eine erfindungsgemäße Anordnung aus Messgerät und zugehöriger Ladestation in isometrischer Schnittdarstellung (gekuppelte Position, leeres Gehäuse)
• 7 ein Gehäuseabschnitt des erfindungsgemäßen Messgeräts in Detailansicht
• 8 ein Brustgurt mit Elektrodenhalterungen zur Aufnahme von Messelektroden eines portablen Messgeräts
• 9 eine Detaildarstellung des Bereichs X aus 6 in Normalschnittansicht (aneinandergrenzende Gehäusewandungen von in gekuppelter Position befindlichem Messgerät und Ladestation), wobei Aufnahmen des Messgeräte-Gehäuses und des Ladestations-Gehäuses mit einem Dauermagnetelement und mit einem korrespondierenden Gegenstück bestückt sind
• 10 die erfindungsgemäße Anordnung aus 6, bestückt mit Platine, Akku und zwei Messelektroden in Schnittdarstellung

The following is the description of embodiments of the invention. Show here

• 1 a charging station according to the invention in a perspective plan view
• 2 an inventive measuring device in perspective bottom view
• 3 a sectional view of a charging station housing according to the invention
• 4 a bottom view of a first housing part of the charging station housing
• 5 the first housing part of the charging station housing according to 4 , equipped with permanent magnet elements
• 6 an inventive arrangement of measuring device and associated charging station in an isometric sectional view (coupled position, empty housing)
• 7 a housing portion of the measuring device according to the invention in detail view
• 8th a chest strap with electrode holders to hold the measuring electrodes of a portable meter
• 9 a detailed representation of the area X from 6 in normal sectional view (contiguous housing walls of coupled measuring device and charging station), wherein receptacles of the meter housing and the charging station housing are equipped with a permanent magnet element and with a corresponding counterpart
• 10 the inventive arrangement 6 , equipped with circuit board, battery and two measuring electrodes in sectional view

1 shows a charging station 8th to which a in 2 illustrated portable meter 1 can be placed. In coupled position according to 6 and 9 these two components form an assembly joined together according to the invention, whose features are described in detail below. The portable measuring device 1 includes one of several housing parts 4a - 4d existing meter housing 4 in which a board 5 , a battery 6 and any other electronic components and connection elements are held. Also the charger 8th includes one of several housing parts 14a . 14b existing charging station housing 14 , within which various electronic components, data transmission devices and a mains power supply or a transformer connection device are provided.

The measuring device 1 has a plurality, preferably two spaced measuring electrodes 2 . 3 on, between which by means of a downstream, on the board 5 integrated detection means a potential difference and thereby the heartbeat of the test subject, in particular the in an electrocardiogram (ECG) appearing RR spikes successive heartbeat waves of a test subject are detected and stored. The measuring device 1 or the board 5 thus has the functionality of an ECG recorder with associated HRV (heart rate variability) evaluation and detects the electrical activity of the heart muscle. On the board 5 or on an associated with this, preferably designed as a ROM memory means an evaluation software is stored.

The charging station 8th serves in the present case, each with dedicated interfaces 13 both the transmission of an electric charging current to that in the meter 1 included battery 6 as well as the transmission of data in the meter 1 determined during its use on the upper body of a test subject and on one in the measuring device 1 provided storage device to be kept. However, it would also be possible to use the meter 1 to be provided with a connectable to an external device interface for data transmission or charging current supply. In such case, the charging station would 8th either fulfill only a data transfer function (loading of information records) or only a battery charging function.

As in a sectional view according to 6 can be seen, is one of the charging station 8th facing housing wall 10 of the meter 1 or a in use position of the skin of the test subject facing first housing part 4a of the meter housing 4 with several (in the present embodiment: two) breakthroughs 11 provided by which the measuring electrodes 2 . 3 protrude and from the outside of the meter housing 4 protrude. The distance between the measuring electrodes 2 . 3 (see also 10 ) is due to the geometry of the meter housing 4 or the position of the breakthroughs 11 fix defined and is in the present embodiment, several centimeters. The measuring electrodes 2 . 3 are made of a conductive material, preferably made of metal such as aluminum or steel, but could be made of a conductive plastic.

From the meter 1 protruding or in the coupled position of the arrangement to the charging station 8th pointing end areas 30 the measuring electrodes 2 . 3 are approximately button-shaped or partially executed dome-shaped. The end areas 30 the measuring electrodes 2 . 3 Stand from the outside of the meter housing wall 4 eg from several millimeters. To the meter 1 put into action, it will be in an in 8th schematically illustrated chest strap 12 integrated, preferably clipped. For this purpose, the chest strap 16 two to the geometry of the end regions 30 the measuring electrodes 2 . 3 corresponding electrode holders 18 on, in which the from the meter 1 protruding measuring electrodes 2 . 3 be introduced and find there by means of a press fit or a Verrastungsverbindung stop. The thickened end areas 30 the measuring electrode 2 or the second electrode member 26 are here in the manner of a pressure or rivet button with the electrode holders 18 of the chest strap 12 latched. The portable measuring device 1 can thus by a linear pressure movement in the direction of a measuring electrode longitudinal axis 16 with the chest strap 12 be brought into engagement or in use position (see arrow direction 31 in 8th ), while it is by a pulling movement in a direction opposite to 180 ° opposite direction again from the use position solvable.

In the same linear direction of movement is the meter 1 also at the charging station 8th dockable and removable from this again (see arrow direction 31 in 10 ). While in charging station / measuring device arrangements according to the prior art, the subject measuring electrodes 2 . 3 are locked in the principle in the same way in the charging station as described above with respect to the chest strap connection, the connection of the meter takes place 1 to the charging station according to the present invention by means of a magnetic holding device 9 ,

The measuring device 1 has a measuring device housing 4 with a battery held in it 6 and at least two, a meter housing wall 10 passing through measuring electrodes 2 . 3 , wherein the measuring electrodes 2 . 3 with one inside the meter housing 4 arranged board 5 for receiving and at least partially processing over the measuring electrodes 2 . 3 transmitted signals are in a conductive connection. In a coupled Position of meter 1 and charging station 8th stand at these intended charge current and / or data transmission interfaces 13 . 13 ' in close contact with each other. According to the invention, it is provided that the measuring device 1 and the charging station 8th in a coupled position by means of a magnetic holding device 9 are liable to each other (see 6 and 10 ).

The magnet holder 9 comprises at least one permanent magnet element 20 and at least one associated, from the permanent magnet element 20 magnetically attracted counterpart 21 or a so-called holding reason (see 9 ). Here, the permanent magnet element 20 on the side of the meter 1 and the counterpart 21 on the side of the charging station 8th be arranged or vice versa, the permanent magnet element 20 on the side of the charging station 8th and the counterpart 21 on the side of the meter 1 ,

In addition to ferromagnetic materials such as iron or iron alloys could permanent magnet elements 20 and counterparts 21 also made of ferrimagnetic materials or other commercially available magnetic alloys, possibly also of magnetic (ie mixed with magnetic materials) rubber or Vulkanisatmaterial or plastic.

The measuring device 1 and the charging station 8th have an approximately equal size or a substantially same extent and an approximately equal weight. In a preferred embodiment, the size or scope of measuring device and charging station considered in plan view or in one of the longitudinal extensions of the measuring electrodes does not differ by more than 30% from one another.

In a preferred embodiment, this is on the side of the meter 1 provided permanent magnet element 20 within the meter housing 4 arranged, preferably on the inside of a charging station 8th facing measuring device housing wall 10 or a first meter housing part 4a ( 10 ). Likewise, this is on the side of the charging station counterpart 21 preferably within the charging station housing 14 arranged, preferably on the inside of a measuring device 1 facing charging station housing wall 19 or a first cargo housing part 14a ,

The permanent magnet element 20 and the counterpart 21 are each formed as a substantially plate-shaped elements, which in corresponding receptacles 22 . 23 of the meter housing 4 or the charging station housing 14 held, for example, glued or screwed (see 9 What a detail X made 6 shows). The permanent magnet elements 20 are usually made of crystalline magnetic powder, which is pressed in the presence of a strong magnetic field in a mold. In this case, the microstructure crystals of the magnetized material align with their magnetization axis in the direction of the magnetic field. The molded permanent magnet elements are then sintered.

According to a preferred arrangement variant are facing each other outer surfaces of permanent magnet element 20 and corresponding, provided with this mating counterpart 21 in the coupled position of the arrangement not more than 10 mm, more preferably not more than 5 mm apart. As a plate-shaped element in the present context, each component is referred to, which has a comparatively small cross-sectional thickness compared to its length, width or diameter extension. In the present embodiment, this is as a permanent magnet element 20 or counterpart 21 used plate-shaped element designed as an approximately coin-sized cylinder disc with a diameter of 5 - 50 mm. A corresponding, in 7 apparent first shot 22 of the meter housing 4 as well as an in 3 apparent second shot 23 of the charging station housing 14 are here to the respective circumferential geometry of the permanent magnet element 20 and counterpart 21 adapted or surround the circumference of these components at least in sections with an approximately concentric envelope geometry. The pictures 22 . 23 for the permanent magnet element 20 or the counterpart 21 may in a simplest embodiment as mere depressions in the meter or charging station housing wall 10 . 19 be executed (see 7 ) or as bulges or as of the meter or charging station housing wall 10 . 19 protruding web elements (see 3 ).

The permanent magnet element 20 and the counterpart 21 are - viewed in a plan view of the arrangement or in the coupling direction of the measuring device 1 and charging station 8th - in each case in the middle third of the measuring device 1 and the charging station 8th arranged (see, eg 5 ). In coupled position of gauge 1 and charging station 8th are the permanent magnet element 20 and the counterpart 21 - considered in one of the longitudinal extent of the measuring electrodes 2 . 3 or their longitudinal axes 16 following viewing direction -directly superposed (with the interposition of the two housing walls 10 and 19 ), wherein the projected surfaces of permanent magnet element 20 and counterpart 21 overlap each other at least in sections, preferably approximately congruent. If the arrangement according to the invention a plurality of permanent magnet elements 20 and counterparts 21 exhibit should, the aforementioned arrangement characteristics apply analogously.

As in 1 and 3 apparent, the points the meter 1 facing charging station housing wall 19 indented, for receiving the measuring electrodes 2 . 3 of the meter 1 provided contact sections 24 . 25 on. The geometry of these contact sections 24 . 25 corresponds to the button-shaped outer contour of the measuring electrode end regions 30 and surrounds these in the meter's coupled position 1 and charging station 8th , The measuring electrodes 2 . 3 are here at least partially within the contact sections 24 . 25 formed recordings of the charging station housing 14 sunk, ie the contact sections 24 . 25 are behind one of the outside of the charging station housing wall 19 or the first charging station housing part 14a surface formed in the direction of the interior of the charging station 8th added. The measuring electrodes 2 . 3 lie in the coupled position of the arrangement according to the invention at the contact portions 24 . 25 the charging station 8th at or a few tenths of a millimeter to a few millimeters to these spaced.

It is also possible to use the measuring electrodes 2 . 3 even as counterparts 21 to use which of on the side of the charging station 8th arranged permanent magnet elements 20 be attracted. For this purpose, the measuring electrodes 2 . 3 be made of a magnetically attractable, in particular ferromagnetic material such as iron or an iron alloy. Here are in the range of contact sections 24 . 25 the charging station 8th Permanent magnet members 20 arranged (see schematic representation in 5 ). The permanent magnet elements 20 can do this both at the inside of the charging station 8th facing inside of the charging station housing wall 19 be arranged, or on the outside. So at least one of the measuring electrodes 2 . 3 , preferably both measuring electrodes 2, 3 as counterpart (e) 21 to the permanent magnet element (s) 20 need to be on the side of the charging station 8th the arrangement of a permanent magnet element 20 only in the area of at least one contact section 24 . 25 , preferably both contact sections 24 . 25 , The provision of another permanent magnet element / counterpart arrangement 20 / 21 in the middle area of the meter housing 4 and the charging station housing 14 as in 5 shown (there in the second shot 23 of the first cargo housing part 14a held), is then no longer necessary, but can at best be made as an additional detention measure.

As supportive measures for polarity pairing of charger 8th and measuring device 1 are according to 1 at the of the board 5 remote from the outside of the meter housing 4 two first positive or negative profiles (in the present embodiment: positive profiles in the form of projecting web elements) are provided which correspond to two second negative / positive profiles 27a . 27b of the charging station housing 14 (In the present embodiment: negative profiles in the form of half-shell-shaped depressions in the charging station housing wall 19 ) are engageable. In this way is in coupled position of measuring device 1 and charging station 8th a correct polar positioning of the measuring device 1 provided charging current and / or data transmission interfaces 13 with corresponding charging current and / or data transmission interfaces 13 ' the charging station 8th guaranteed. Here, an at least partially positive contact between the / the first positive or negative profile (s) takes place 26a . 26b of the meter housing 4 and the opposite negative or positive profile (s) 27a . 27b of the charging station housing 14 , In this respect, the positive / negative profiles thus act as coding elements for a logical pairing of measuring device 1 and charging station 8th ,

The representational asymmetry of the positive / negative profiles 26a . 26b . 27a . 27b refers in each case to one between the two measuring electrodes 2 . 3 of the measuring device 1 or the corresponding contact sections 24 . 25 the charging station 8th imaginary transverse axis 17 of the meter 1 or the charging station 8th (please refer 1 and 2 ). The transverse axis 17 in this case runs essentially orthogonal to one between the two measuring electrodes 2 . 3 or breakthroughs 11 of the meter housing 4 imaginary connecting line or orthogonal to one between the contact sections 24 . 25 of the charging station housing 14 imaginary connecting line.

In the embodiment according to 1 and 2 are on the meter housing 4 and on the charging station housing 14 each two approximately mirror-symmetrical to the transverse axis with respect to their basic geometry 17 arranged positive / negative profiles 26a and 26b such as 27a and 27b of which, however, the first (in accordance with 1 : the left) positive / negative profile 26a . 27a in comparison to the other side of the transverse axis 14 arranged second positive / negative profile 26b . 27b is slightly different and, for example, with at least one (in the present embodiment: two) coding lugs 32 on the side of the meter 1 and corresponding coding nose recordings 33 on the side of the charging station 8th is provided. The geometry of the coding noses 32 is chosen purely by way of example. Instead of substantially radially to the measuring electrodes 2 . 3 or to their longitudinal axes 16 projecting bulges or coding noses could be a geometric asymmetry by any other shape deviation or by an original arrangement, for example by an offset at least one of the positive / negative profiles 26a . 26b / 27a . 27b opposite the transverse axis 14 or opposite to an orthogonal to the transverse axis 17 extending longitudinal axis 34 of the meter housing 4 or the charging station housing 14 be achieved. Also, the provision of a single positive / negative profile on the side of the meter 1 and a corresponding negative / positive profile on the side of the charging station would be conceivable, if such a solitary profile has an original asymmetry, for example in the form of an irregular toothed wheel geometry, which is an unambiguous position definition of the measuring device 1 enabled at the charging station.

According to 1 and 2 surround the positive / negative profiles 26a . 26b / 27a . 27b the measuring electrodes 2 . 3 or the contact sections 24 . 25 under a predetermined - according to the present embodiment in the radial direction constant - distance at least in sections.

The example as pin and / or sleeve elements, preferably designed as a pogo pins contact elements 29 . 29 ' the charging current or data transmission interfaces 13 . 13 ' from measuring device 1 and charging station 8th are due to the magnetic force effect of the magnetic holding device 9 engaged or engaged with each other. As in 2 and in 7 can be seen, the meter housing 4 several first passages 28 on, within which first contact elements 29 the first charging current and data transmission interface 13 are held. As in 1 and 4 can be seen, the charging station housing 14 a plurality of corresponding second passage openings 28 ' on, within which second contact elements 29 ' the second charging current and data transmission interface 13 ' are held. In the coupled position of the measuring device and the charging station, longitudinal axes of the first passage openings are aligned 28 with longitudinal axes of the corresponding second passage openings 28 ' or is one on the meter housing 4 apparent hole matrix at first through holes 28 Congruent to one on the charging station housing 4 apparent hole matrix at second through holes 28 ' ,

In the present embodiment are both on the meter 1 as well as at the charging station 8th four charging current or data transmission interfaces 13 . 13 ' or four through holes 28 . 28 ' with metallic contact elements therein 29 . 29 ' intended. Two of these interfaces are for battery charging, while two more interfaces are for transferring data collected in the meter, in particular heart rate information, to one within the charging station 8th arranged receiving device serve. However, data transmission can also be done by the charging station 8th in the direction of the meter 1 occur. The charging station 8th is further provided with an interface, not shown, preferably in the form of a USB port, for transmitting the data obtained from the meter to an external computing unit, in which the data are further processed. Also the measuring device 1 could contain such an interface, read from which data directly via an externally connected computing device or to the meter 1 can be recorded. Alternatively or additionally, between measuring device 1 and charging station 4 , as well as between these and any external computing devices such as smart phones, PCs or servers and a wireless data transmission eg via Bluetooth or mobile standard be provided. In a further development of the arrangement according to the invention, the measuring device 1 in addition to the four in 2 apparent charging current or data transmission interfaces 13 . 13 ' yet another communication interface, which serves to transmit software updates. In a preferred embodiment, the charging station 8th provided with a corresponding interface, ie a possible software update can via the charging station 8th into the meter 1 be recorded.

The conductive connection between the board 5 and the measuring electrodes 2 . 3 is in each case by a standing in the assembled state biased spring element 7 made (see 10 ).

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 60306856 T2 [0004]
• DE 102006039957 B4 [0004]

Claims (10)

Arrangement, consisting of a portable measuring device (1) for noninvasive recording of bioelectric signals, in particular of electrocardiogram (ECG) and heart rate information on the upper body of a test subject and with the measuring device (1) detachable charging station (8), wherein the measuring device (1) a Measuring device housing (4) with a battery held therein (6) and at least two, a measuring device housing wall (10) passing through measuring electrodes (2, 3), wherein the measuring electrodes (2, 3) with a within the meter housing ( 4) arranged circuit board (5) for receiving and at least partially further processing of the measuring electrodes (2, 3) transmitted signals are in conductive connection and wherein in the coupled position of the measuring device (1) and charging station (8) provided on these charge current and / or data transmission interfaces (13, 13 ') are in conductive contact with each other, characterized in that the measuring device (1) and the charging station (8) in coupled position by means of a magnetic holding device (9) are adhered to each other, wherein the magnet holding device (9) comprises at least one permanent magnet element (20) and at least one associated by the permanent magnet element (20) magnetically attracted counterpart (21), wherein either the permanent magnet element (20) Side of the measuring device (1) and the counterpart (21) on the side of the charging station (8) is arranged or vice versa, the permanent magnet element (20) on the side of the charging station (8) and the counterpart (21) on the side of the measuring device (1) is. Arrangement according to Claim 1 , characterized in that the permanent magnet element (20) within the meter housing (4) is arranged, preferably on the inside of a charging station (8) facing the meter housing wall (10). Arrangement according to Claim 1 or 2 , characterized in that the counterpart (21) within the charging station housing (14) is arranged, preferably on the inside of the measuring device (1) facing the charging station housing wall (19). Arrangement according to one of Claims 1 to 3 , characterized in that in the coupled position of measuring device (1) and charging station (8) the permanent magnet element (20) and the counterpart (21) - considered in one of the longitudinal extent of the measuring electrodes (2, 3) and their longitudinal axes (16) Viewing direction - are arranged one above the other, wherein the successive projected surfaces of permanent magnet element (20) and corresponding counterpart (21) overlap each other at least in sections, preferably approximately congruent. Arrangement according to one of Claims 1 to 4 , characterized in that the measuring device (1) facing the charging station housing wall (19) preferably indented, for receiving the measuring electrodes (2, 3) of the measuring device (4) provided contact portions (24, 25). Arrangement according to Claim 5 , characterized in that a permanent magnet element (20) is arranged in the region of at least one contact section (24, 25) of the charging station (8), preferably on both contact sections (24, 25) and preferably on the inside of the charging station (8). wherein at least one measuring electrode (2, 3) is made of a magnetically attractable, in particular ferromagnetic material and in such a way even as counterpart (s) (21) to act on the side of the charging station (8) arranged permanent magnet element (20). Arrangement according to one of Claims 1 to 6 , characterized in that the permanent magnet element (20) and / or the counterpart (21) is designed as a substantially plate-shaped element, which in a corresponding receptacle (22, 23) of the measuring device housing (4) or the charging station housing ( 14), wherein it is preferably provided that facing outer surfaces of permanent magnet element (20) and corresponding counterpart (21) provided for mating therewith are spaced apart from one another by more than 10 mm in the coupled position of the arrangement. Arrangement according to one of Claims 1 to 7 , characterized in that one or more permanent magnet elements (20) and one or more corresponding counterparts (21) - viewed in a plan view of the arrangement or in the coupling direction of the measuring device (1) and charging station (8) - respectively in the middle third of the measuring device (1) and the charging station (8) are arranged. Arrangement according to one of Claims 1 to 8th , characterized in that on the side remote from the circuit board (5) outside of the measuring device housing (4) at least a first positive or negative profile (26a, 26b) is provided, which correspond to at least one second negative / positive -Profil (27a, 27b) of the charging station housing (14) is engageable in the coupled position of the measuring device (1) and charging station (8) a polar positioning of at least one on the measuring device (1) provided charging current and / or data transmission Interface (13) with at least one corresponding charging current and / or Data transmission interface (13 ') of the charging station (8) to ensure. Arrangement according to Claim 9 , Characterized in that both on the encoder housing (4), as well as at the loading station housing (14) at least two positive or negative profiles (26a, 26b / 27a, 27b) are provided, each in a measuring electrodes (2, 3) or the corresponding contact portions (24, 25) adjacent region of the measuring device and charging station housing (4, 14) are arranged and of which at least one of the positive or negative profiles (26a, 26b / 27a , 27b) - viewed in plan view of the arrangement or in the coupling direction of the measuring device (1) and charging station (8) - preferably has an approximately circular segment-shaped base geometry.

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