DE102013114731A1 - Kitchen sink - Google Patents

Abstract

The coil (1) comprises a base body (11) having an end (11+) of the main body formed by a first end face up to a distal end (11+) formed by a second end face (11 #). 11A '), a coil carrier (12) having an end (12+) of the coil carrier formed by a first end face to a distal end (12) of the first end, namely a second end face #) of the bobbin extending through hole (12A). The bobbin (12) is arranged relative to the base body (11) so that the second end face of the bobbin facing the base body and between the second end face of the bobbin and the first end face of the base body, a gap (20) is formed, and that the through hole (12A ) of the bobbin with the passage opening (11A) of the body is aligned. The coil (1) also comprises a recorded both from the through hole of the bobbin and the passage opening of the body screw (13) for mechanically connecting the bobbin and the base body, one wound around the bobbin of an electrically conductive material and at least two, each proportionately in the connection space (111, 112) placed between the coil carrier and the base body, of which a connection line (111) at least one core (111A) made of electrically conductive material and electrically connected to one end (14+) of the coil wire and 112) have at least one wire (112A) of electrically conductive material electrically connected to one end (14 #) of the coil wire. The coil is also specifically intended for use in a vibration type transducer.

Description

The invention relates to a, esp. For use in a transducer of the vibration type, not least also suitable for forming a vibration exciter and / or a vibration sensor, coil. Furthermore, the invention relates to such a coil having vibration-type transducers.

In industrial metrology, esp. In connection with the control and monitoring of automated process engineering processes for highly accurate determination of one or more parameters, esp., A mass flow rate, a density and / or viscosity, one in a process line, such as a pipeline , flowing medium, for example, a liquid or gas, often each by means of a - usually formed by at least one microprocessor - gauge electronics and an electrically connected with nämlicher meter electronics used in the operation of the medium to be measured transducers formed by the vibration type vibronic measuring instruments used , Such - trained as a so-called four-wire or as so-called two-wire devices - measuring devices have long been known, not least also ingestalt of Coriolis mass flow / density meters or ingestalt of viscosity-density measuring instruments, and established in industrial use. Examples of such vibronic measuring devices or suitable transducers are inter alia in the US-A 2004/0123645 , of the US-A 2006/0096390 , of the US-A 2007/0062309 , of the US-A 2007/0119264 , of the US-A 2008/0047362 , of the US-A 2008/0190195 , of the US-A 2008/0250871 , of the US-A 2010/0005887 , of the US-A 2010/0011882 , of the US-A 2010/0257943 , of the US-A 2011/0161017 , of the US-A 2011/0219872 , of the US-A 2011/0265580 , of the US-A 2012/0123705 , of the US-A 2013/0042700 , of the US-A 44 91 009 , of the US-A 45 24 610 , of the US-A 47 56 198 , of the US-A 47 77 833 , of the US-A 48 01 897 , of the US-A 48 76 898 , of the US Pat. No. 4,996,871 , of the US-A 52 87 754 , of the US-A 52 91 792 , of the US-A 53 49 872 , of the US-A 55 31 126 , of the US-A 57 05 754 , of the US Pat. No. 5,796,010 , of the US Pat. No. 5,796,011 , of the US-A 58 31 178 , of the US-A 59 45 609 , of the US-A 59 65 824 , of the US-A 60 06 609 , of the US-A 60 92 429 , of the US-B 62 23 605 , of the US-B 63 11 136 , of the US-B 64 77 901 , of the US-B 65 13 393 , of the US-B 66 51 513 , of the US-B 66 66 098 , of the US-B 67 11 958 , of the US-B 68 40 109 , of the US-B 69 20 798 , of the US-B 70 17 424 , of the US-B 70 77 014 , of the US-B 72 00 503 , of the US-B 72 16 549 , of the US-B 73 25 462 , of the US-B 73 60 451 , of the US-B 77 92 646 , of the WO-A 00/34748 , of the WO-A 01/02 816 , of the WO-A 2007/043996 , of the WO-A 2008/059262 , of the WO-A 2013/092104 , of the WO-A 85/05677 , of the WO-A 88/02853 , of the WO-A 89/00679 , of the WO-A 94/21999 , of the WO-A 95/03528 , of the WO-A 95/16897 , of the WO-A 95/29385 , of the WO-A 98/02725 , or the WO-A 99/40 394 described.

The transducer of each of the measuring instruments shown therein comprises at least one at least partially straight and / or at least partially curved, e.g. U-, V-, S-, Z- or Ω-like shaped, measuring tube with a lumen surrounded by a tube wall for guiding the medium.

The at least one measuring tube of such a transducer is adapted to guide in the lumen medium and while it is vibrated so that it Nutzschwingungen, namely mechanical vibrations to a rest position with a co-determined by the density of the medium, and thus as a measure of the density usable usable frequency. In conventional vibronic gauges are typically bending vibrations at a natural resonant frequency as Nutzschwingungen, for example, those bending vibrations, which correspond to a transducer inherent natural bending vibration fundamental mode in which the vibrations of the measuring tube are such resonant vibrations, which have exactly one antinode. The useful vibrations are also typically formed with an at least partially curved measuring tube so that the same measuring tube oscillates about an inlet side and an outlet side end of the measuring tube imaginary connecting imaginary axis of oscillation in the manner of a clamped at one end boom, while in transducers with a straight measuring tube the useful vibrations are mostly bending vibrations in a single imaginary plane of vibration. It is also known to excite the at least one measuring tube for the purpose of carrying out periodic inspections of the transducer during operation of the meter occasionally also to time-lasting vibrations out of resonance and evaluate the same vibration except resonance, for example, as in the aforementioned US-A 2012/0123705 described to detect any damage to the at least one measuring tube as early as possible, which can cause an undesirable reduction in the accuracy of measurement and / or the reliability of the respective meter.

In transducers with two measuring tubes, these are usually on a between the measuring tubes and an inlet side flange extending inlet side manifold and a extending between the measuring tubes and an outlet flange flange outlet side Distributor piece integrated in the respective process line. In the case of transducers with a single measuring tube, the latter usually communicates via a connecting tube which opens in on the inlet side and via a connecting tube which opens into the outlet side with the process line. In addition, transducers with a single measuring tube each comprise at least one one-piece or multi-part executed, for example, tubular, box or plate-shaped, counteroscillator, which is coupled to the measuring tube to form a first coupling zone inlet side and coupled to form a second coupling zone outlet side of the measuring tube is, and in operation substantially rests or oscillates opposite to the measuring tube. The inner part of the transducer formed by means of measuring tube and counteroscillator is mostly alone by means of two connecting pipes, via which communicates the measuring tube in operation with the process line, supported in a protective transducer housing, esp. In a vibration of the inner part relative to the transducer housing enabling manner , For example, in the US-A 52 91 792 , of the US Pat. No. 5,796,010 , of the US-A 59 45 609 , of the US-B 70 77 014 , of the US-A 2007/0119264 , of the WO-A 01/02 816 or even the WO-A 99/40 394 shown transducers with a single, substantially straight measuring tube are the latter and the counteroscillator, as usual in conventional transducers quite common to each other substantially coaxially aligned by the counteroscillator formed as a substantially straight hollow cylinder and arranged in the transducer so that the measuring tube at least partially surrounded by the backswing. As materials for such counteroscillators, esp. When using titanium, tantalum or zirconium for the measuring tube, usually relatively inexpensive steel grades, such as mild steel or free-cutting steel used.

For actively exciting or maintaining oscillations of the at least one measuring tube, not least also the useful oscillations, vibration-type transducers further have a differentially by means of at least one counter-oscillator or the optionally present counter-oscillator in operation Measuring tube acting electromechanical vibration exciter. The means of a pair of electrical leads, for example, inform of leads and / or inform of traces of a flexible circuit board, electrically connected to the aforementioned meter electronics vibration used in particular to be driven by one of the meter electronics generated and conditioned accordingly, namely at least to changing vibration characteristics of the at least one measuring tube adapted electrical exciter signal to convert a fed by means of the same exciter signal electrical excitation power in a formed at one of the vibration exciter attack on the at least one measuring tube acting driving force.

Vibration generators marketable vibration transducer are typically constructed in the manner of a working according to the electrodynamic principle voice coil, namely by means of a - fixed at measuring transducers with a measuring tube and a counteroscillator coupled thereto usually on the latter - and a coil interacting with the at least one coil serving as an armature permanent magnet formed, which is fixed according to the measuring tube to be moved. The permanent magnet and the coil are usually aligned so that they are substantially coaxial with each other. In addition, in conventional transducers of the vibration exciter mostly designed and placed so that it acts substantially centrally on the at least one measuring tube. As an alternative to a more central and directly acting on the measuring tube vibration exciter, as in the aforementioned, inter alia US-A 60 92 429 , For example, by means of two not in the center of the measuring tube, but rather on the inlet or outlet side of this fixed vibration exciter for the active excitation of mechanical vibrations of at least one measuring tube are used or, as in the US-B 62 23 605 or the US-A 55 31 126 proposed, for example, by means of a formed between the possibly existing counteroscillator and the transducer housing vibration exciter arrangements are used.

For detecting oscillatory movements of the at least one measuring tube, not least also corresponding to the Nutzschwingungen, transducers of the type in question also have at least one placed on the measuring tube, for example by means of a separate pair of electrical leads electrically connected to the meter electronics, vibration sensor on is set up to convert the same vibration oscillations into a vibration measuring signal representing them, which contains a frequency corresponding signal frequency, and the same Schwingungsmeßsignal the meter electronics, for example, a formed by at least one microprocessor measuring and operating circuit of the meter electronics, for further processing to provide. In transducers of commercially available vibronic density gauges, the vibration sensors are usually also of the electrodynamic type, thus constructed in the manner of a plunger coil. Accordingly, the vibration sensors of such a sensor arrangement are usually also each by means of a permanent magnet fixed to the measuring tube and at least one - for example, if necessary other measuring tube or possibly existing counter-oscillator fixed - formed by a magnetic field of the permanent magnet coil formed, which is at least temporarily acted upon by an induced measuring voltage due to the oscillations of the at least one measuring tube.

Due to the Nutzschwingungen the at least one measuring tube, can - not least in the event that the Nutzschwingungen of at least one measuring tube are bending vibrations - in the flowing medium known to be dependent on the instantaneous mass flow rate Coriolis forces. These in turn can be dependent on the mass flow rate, the Nutzschwingungen superimposed Coriolis vibrations cause with useful frequency, such that between inlet and outlet oscillations of the oscillating Nutzwelleneingenden and at the same time flowed through by a medium at least one measuring tube also dependent on the mass flow rate, thus also as a measure of the mass flow usable transit time or phase difference can be detected. In an at least partially curved measuring tube, in which for the Nutzschwingungen a waveform in the same measuring tube is oscillated in the manner of a clamped at one end cantilever is selected, correspond to the resulting Coriolis vibrations such as that - sometimes referred to as twist mode - bending mode of vibration in which the measuring tube executes torsional oscillations about an imaginary axis of rotation aligned perpendicular to said imaginary axis of vibration, whereas in a straight measuring tube whose useful oscillations are formed as bending oscillations in a single imaginary plane of vibration, the Coriolis oscillations are, for example, bending vibrations substantially coplanar with the useful oscillations. For the case already mentioned above, that in addition to the density also the mass flow rate of each guided in the transducer medium is to be determined by means of the meter, transducer of the type in question for the purpose of detecting both inlet-side and outlet-side oscillatory movements of the at least one measuring tube and the Generating at least two of the measured mass flow rate to the measured electrical Schwingungsmeßsignalen most of the two or more spaced along the measuring tube vibration sensors, which are designed and arranged so that the generated and passed to the meter electronics Schwingungsmeßsignale not only, as already mentioned, each having a useful signal component, but also that a dependent of the mass flow rate run-time or phase difference is also between the useful signal components of both Schwingungsmeßsignale measurable. Alternatively or in addition to the measurement, the mass flow rate in addition to the measurement of the density is - as already mentioned or, inter alia, in the aforementioned US-A 2011/0265580 In addition, it is also possible to measure directly by means of such vibration-type transducers, thus also by means of vibronic density measuring devices, a viscosity of the medium flowing through, for example based on an electrical exciter power required for excitation or maintenance of the useful oscillations a determined based on the excitation power damping of the useful vibrations, and inform qualified viscosity readings output.

A used in a transducer of the type in question - for example, to form a vibration generator or a vibration sensor - used coil typically has, for example, a plastic and / or ceramic and / or metal, a coil carrier with a from one through a first end face formed first end of the bobbin as far as a first end to the distal, formed by a, in particular to the same first end face parallel second end face of the second end of the bobbin extending straight through opening. To the same coil support is, for example, coated with an electrically insulating lacquer layer, from an electrically conductive material, such as copper or platinum or an alloy thereof, wound. The final assembly of such a coil is typically carried out by the bobbin carrying the coil wire is mounted on the counter-oscillator or on the measuring tube of the respective transducer using a positioned in the through hole of the bobbin screw. Typically, each of the two connecting leads is then connected electrically, in each case one, initially free, end of the coil wire, for example, namely manually soldered, after which the coil is already in the installed position.

Due to the regularly very small gaps between the individual already assembled assemblies of the transducer to be manufactured, not least in transducers of smaller nominal size or with relatively small measuring tubes, however, a considerable degree of skill in handling the leads or required for soldering Resources, such as a corresponding Handlötgeräts or the corresponding solder material, needed, along with a correspondingly increased risk to initially produce unrecognized faulty solder joints. Moreover, there is at namely soldering the leads to the coil located in the installed position a increased risk of tearing the usually very thin coil wire or the same only very thin insulation of the same to injure, thus damaging the coil or even destroy.

It is therefore an object of the invention to provide a coil which on the one hand simplifies the connection of coil wire and leads, and on the other hand reduces the risk of destroying the same coil during or after connecting coil wire and leads compared to conventional coils is; this in particular also when using the same coil in a transducer of the vibration type.

• – einen, beispielsweise aus einem metallischen Material bestehenden und/oder kreiszylinderförmigen und/oder scheibenförmigen, Grundkörper mit einer sich von einem durch eine erste Stirnfläche gebildeten ersten Ende des Grundkörpers bis zu einem zu nämlichem ersten Ende distalen, durch eine, beispielsweise zu nämlicher ersten Stirnfläche parallele, zweite Stirnfläche gebildeten zweiten Ende des Grundkörpers erstreckenden, beispielsweise geraden und/oder von einer ein Innengewinde aufweisenden Innenfläche des Grundkörpers umhüllten, Durchgangsöffnung;
• – einen, beispielsweise aus einem Kunststoff und/oder aus einer Keramik und/oder einem Metall bestehenden, Spulenträger mit einer sich von einem durch eine erste Stirnfläche gebildeten ersten Ende des Spulenträgers bis zu einem zu nämlichem ersten Ende distalen, durch eine, beispielsweise zu nämlicher ersten Stirnfläche parallele, zweite Stirnfläche gebildeten zweiten Ende des Spulenträgers erstreckenden, beispielsweise geraden, Durchgangsöffnung, wobei der Spulenträger relativ zum Grundkörper so angeordnet ist,
• – daß die zweite Stirnfläche des Spulenträgers dem Grundkörper zugewandt und zwischen der zweiten Stirnfläche des Spulenträgers und der ersten Stirnfläche des Grundkörpers ein Zwischenraum ausgebildet ist,
• – und daß die Durchgangsöffnung des Spulenträgers mit der Durchgangsöffnung des Grundkörpers fluchtet, beispielsweise derart, daß darin eine sich sowohl durch die Durchgangsöffnung als auch die Durchgangsöffnung erstreckende Schraube positionierbar ist;
• – eine sowohl von der Durchgangsöffnung des Spulenträgers als auch der Durchgangsöffnung des Grundkörpers aufgenommene, beispielsweise sich nämlich über das das zweite Ende des Grundkörpers hinaus erstreckende und/oder als Senkkopf-Schraube ausgebildete, Schraube zum mechanischen Verbinden von Spulenträger und Grundkörper;
• – einen um den Spulenträger gewickelten, beispielsweise metallischen und/oder mit einer elektrisch isolierenden Lackschicht überzogenen, aus einem elektrisch leitfähigen Material, beispielsweise nämlich aus Kupfer oder aus einer Kupferlegierung oder aus Platin oder aus einer Platinlegierung;
• – sowie wenigstens zwei, jeweils anteilig in dem zwischen Spulenträger und Grundkörper gebildeten Zwischenraum plazierte, beispielsweise mittels eines innerhalb des Zwischenraum bewirkten Kraftschlusses fixierte, Anschlußleitungen, von denen
• – eine erste Anschlußleitung wenigstes eine mit einem ersten Ende des Spulen-Drahts elektrisch leitend verbundene, beispielsweise metallische und/oder zumindest teilweise von einer textilen Isolation umhüllte, Ader aus elektrisch leitfähigem Material, beispielsweise nämlich aus Silber oder einer Silberlegierung oder Kupfer oder einer Kupferlegierung, und
• – eine zweite Anschlußleitung wenigstes eine mit einem zweiten Ende des Spulen-Drahts elektrisch leitend verbundene, beispielsweise metallische und/oder zumindest teilweise von einer textilen Isolation umhüllte, Ader aus elektrisch leitfähigem Material, beispielsweise nämlich aus Silber oder einer Silberlegierung oder Kupfer oder einer Kupferlegierung oder aus dem gleichen Material wie die Ader der ersten Anschlußleitung, aufweisen.

To achieve the object, the invention consists in a coil, for example for a vibration-type transducer, comprising:

• - One, for example, consisting of a metallic material and / or circular cylindrical and / or disc-shaped, basic body with a first end face formed by a first end of the body up to a first to the first end, by a, for example, to the same first end face parallel, second end face formed second end of the base body extending, for example, straight and / or enclosed by an internal thread having an inner surface of the body, through hole;
• - One, for example, made of a plastic and / or ceramic and / or metal, a coil carrier with a first end of a first end of the bobbin formed by a first end to a first to the first end, by one, for example, to nämlicher first end face parallel, second end face formed second end of the bobbin extending, for example straight, through hole, wherein the bobbin is arranged relative to the base body so
• - That the second end face of the bobbin facing the base body and between the second end face of the bobbin and the first end face of the base body, a gap is formed,
• - And that the passage opening of the bobbin is aligned with the passage opening of the base body, for example, such that therein is a positionable through both the passage opening and the passage opening screw positionable;
• - A recorded both from the through hole of the bobbin and the passage opening of the body, for example, namely over the second end of the base body also extending and / or trained as a countersunk screw, screw for mechanically connecting the bobbin and the base body;
• - A wound around the bobbin, for example, metallic and / or coated with an electrically insulating paint layer, made of an electrically conductive material, for example, of copper or a copper alloy or of platinum or of a platinum alloy;
• - And at least two, each proportionately placed in the intermediate space formed between the coil carrier and the base, for example, by means of a force locked within the gap fixed, connecting lines, of which
• A first connecting line at least one conductor electrically conductively connected to a first end of the coil wire, for example metallic and / or at least partially surrounded by a textile insulation, conductor of electrically conductive material, for example of silver or a silver alloy or copper or a copper alloy, and
• A second connecting line at least one of a second end of the coil wire electrically connected, for example, metallic and / or at least partially covered by a textile insulation, core of electrically conductive material, for example, of silver or a silver alloy or copper or a copper alloy or of the same material as the wire of the first lead.

• – wenigstens ein, beispielsweise zumindest abschnittsweise gerades und/oder zumindest abschnittsweise gekrümmtes, Meßrohr, das ein von einer Rohrwand umgebenes Lumen aufweist und dafür eingerichtet ist, in einem Lumen ein fließfähiges Medium, beispielsweise eine Gas und/oder eine Flüssigkeit, zu führen und währenddessen vibrieren gelassen zu werden, beispielsweise derart, daß nämliches Metallrohr mechanischen Schwingungen um eine diesem zugehörige statische Ruhelage ausführt, die geeignet sind, im strömenden Medium von einer Massendurchflußrate abhängige Corioliskräfte zu induzieren, und/oder daß nämliches Metallrohr mechanischen Schwingungen um eine diesem zugehörige statische Ruhelage ausführt, die geeignet sind, im strömenden Medium von einer Viskosität nämlichen Mediums abhängige Reibungskräfte zu induzieren, und/oder daß nämliches Metallrohr mechanischen Schwingungen um eine diesem zugehörige statische Ruhelage ausführt, die geeignet sind, im strömenden Medium von einer Dichte nämlichen Mediums abhängige Trägheitskräfte zu induzieren;
• – einen mit dem wenigstens einen Meßrohr verbundenen, beispielsweise nämlich außen an dessen Rohrwand fixierten, Permanentmagneten;
• – sowie eine Spule gemäß einem der vorherigen Ansprüche, wobei nämliche Spule von einem Magnetfeld des Permanentmagneten durchflutet ist.

Moreover, the invention further also consists in a vibration-type transducer comprising:

• - At least one, for example, at least partially straight and / or at least partially curved, measuring tube having a lumen surrounded by a tube wall and is adapted to lead in a lumen a flowable medium, such as a gas and / or liquid, and while to be vibrated, for example, such that the same metal tube performs mechanical oscillations about a static rest position associated therewith which are capable of inducing mass flow rate dependent Coriolis forces in the flowing medium, and / or the same metal tube vibrates mechanically around a static rest position associated therewith performs, which are capable of inducing in the flowing medium of a viscosity of the same medium-dependent frictional forces, and / or that same metal tube performs mechanical vibrations around a static rest position associated therewith, which are suitable in the flow to induce medium of density-dependent inertial forces;
• - One connected to the at least one measuring tube, for example, namely fixed externally to the tube wall, permanent magnet;
• - And a coil according to one of the preceding claims, wherein the same coil is flooded by a magnetic field of the permanent magnet.

According to a first embodiment of the coil according to the invention it is provided that the first end face of the body at least one, for example laterally spaced from the passage opening and / or groove-shaped recess for receiving at least one of the at least two leads, for example, for receiving both the first lead as also that of the second connection line. This embodiment of the invention further provides that the first end face of the base body a, for example, laterally spaced from the passage opening and / or groove-shaped, first recess for receiving the first lead and one, for example laterally spaced from the passage opening and / or grooved and / or or to the first recess parallel, second recess for receiving the second connecting line has; and that the first connection line are proportionally taken up by the first recess and the second connection line proportionally from the second recess.

According to a second embodiment of the coil according to the invention it is provided that the second end face of the bobbin at least one, for example laterally spaced from the passage opening and / or groove-shaped recess for receiving at least one of the at least two leads, for example, for receiving both the first lead as also that of the second connection line.

According to a third embodiment of the coil according to the invention it is provided that coil carrier and base body are arranged so that the first end face of the main body and the second end face of the bobbin facing each other, for example, such that the bobbin and body contact each other surface.

According to a fourth embodiment of the coil according to the invention it is provided that the coil support a, for example, hollow cylindrical winding segment, an adjacent to a first end of the winding segment, for example, hollow cylindrical and / or projecting an annular winding boundary surface projecting, first edge segment and a to a first end Having distal second end of the winding segment adjacent, for example, a frusto-conical contour exhibiting and / or projecting to form an annular winding boundary surface, second edge segment, and that the coil wire is in fact wound on the winding segment. This embodiment of the invention further provides that the passage opening of the bobbin within the second edge segment, for example, a stepped, cross-sectional change, for example, such that a bearing surface is formed for a screw head of the screw; and / or that the screw has a screw head and is placed inside the bobbin such that the screw head is positioned within the second edge segment.

According to a fifth embodiment of the coil according to the invention it is provided that a screw connection is formed by means of the screw, which transmits an axial, namely acting in the direction of an imaginary longitudinal axis of the screw clamping force on the bobbin, for example, such that the bobbin and / or screw have elastic deformations ,

According to a sixth embodiment of the coil according to the invention it is provided that the base body, coil support are arranged together with the leads for effecting in the space a force-fitting fixing the leads, for example, with a dependent of a transmitted by means of the screw on the coil carrier clamping force Hafthaftkraft.

According to a seventh embodiment of the coil according to the invention it is provided that consists of copper or a copper alloy.

According to an eighth embodiment of the coil according to the invention it is provided that the wire of the first lead consists of silver or a silver alloy.

According to a ninth embodiment of the coil according to the invention it is provided that the core of the second connecting line consists of the same material as the wire of the first connecting line.

According to a tenth embodiment of the coil according to the invention it is provided that the core of the first connection line is at least partially enclosed by a textile insulation, for example a fiberglass insulation.

According to an eleventh embodiment of the coil according to the invention it is provided that the core of the second connection line is at least partially enveloped by the same insulation as the core of the first connection line.

According to a twelfth embodiment of the coil according to the invention it is provided that the coil carrier is made of, for example thermoplastic, plastic, for example polyetheretherketone (PEEK).

According to a thirteenth embodiment of the coil according to the invention it is provided that the core of the first connecting line is connected in a material-locking manner to the first end of the coil wire.

According to a fourteenth embodiment of the coil according to the invention it is provided that the core of the second connecting line is integrally connected to the second end of the coil wire.

According to a development of the coil according to the invention this further comprises a, for example, a plastic and / or of a ceramic and / or a metal and / or of the same material as the bobbin existing, molded part having a first formed by a first end face End of the molded part to a first end to the first distal, formed by a, for example, to the same first end face parallel, second end surface formed second end of the molding extending, for example straight, through hole. Further, in this embodiment of the invention, it is provided that the molded part is placed in the intermediate space formed between the coil carrier and the base body and arranged relative to the coil carrier and the base body, that the passage opening of the molded part both with the passage opening of the base body and with the passage opening of the bobbin, for example such that a passage of the screw is made possible, aligned; and that the screw is partially received also by the passage opening of the molding.

According to a first embodiment of this development of the coil according to the invention it is provided that the molding relative to the coil carrier and base body is arranged so that the first end face of the molded part facing the bobbin and the second end face of the molding the base body, for example, such that molding and Main body contact each other surface and / or that molding and coil carrier contact each other surface.

According to a second embodiment of this development of the coil according to the invention it is provided that the first end face of the molding at least one, for example laterally spaced from the passage opening and / or groove-shaped recess for receiving at least one of the at least two leads, for example, for receiving both of the first Lead and the second lead, has.

According to a third embodiment of this development of the coil according to the invention it is provided that the first end face of the molded part one, for example, laterally spaced from the passage opening and / or grooved, first recess for receiving the first lead and one, for example, laterally spaced from the passage opening and / or Has groove-shaped and / or parallel to the first recess, second recess for receiving the second connecting line; and that the first connection line are proportionally taken up by the first recess and the second connection line proportionally from the second recess.

A basic idea of the invention is to increase the mechanical strength of the entire coil, including the leads connected to the coil wire, by fixing the leads directly to the coil support, along with a corresponding fixation of the ends of the lead connected to the leads Coil carrier wound coil wire. The coil can thus be designed advantageously as a pre-assembled, namely before assembly with other modules, for example, other modules of a transducer vibration type, completed assembly without a significant risk for subsequent damage to the coil, such as tearing off the leads or the coil wire during transport or installation of the same coil to get. This has u.a. also the advantage that in the manufacture of transducers of the vibration type rather expensive conventional connection of coil wire and leads in installation position of the respective coil, can now be replaced by the fact that instead connecting the coil wire and leads outside the mounting position or from the respective measuring tube can therefore be carried out at a freely accessible workplace.

The invention and further advantageous embodiments thereof are explained in more detail below with reference to exemplary embodiments, which are illustrated in the figures of the drawing. Identical parts are provided in all figures with the same reference numerals; if it requires the clarity or it appears otherwise useful, is omitted reference numerals already mentioned in subsequent figures. Further advantageous embodiments or developments, esp. Combinations initially only individually explained aspects of the invention will become apparent from the figures of the drawing as well as the dependent claims per se. In detail show:

1 . 2 . 3 in different, partially disassembled views Embodiment of an inventive, for example, as part of a transducer of the vibration type or a vibronic measuring device thus formed useful coil;

4 . 5 . 6 in a sectional side view of embodiment variants of a coil according to the invention;

7 . 8th . 9 in different, partially disassembled views, another embodiment of a coil according to the invention, for example, as part of a transducer of the vibration type or a vibronic measuring device thus formed, serving coil; and

10 in a sectional side view of a measuring tube of a transducer of the vibration type with a permanent magnet attached thereto and an inventive, interacting with the permanent magnet coil.

In the 1 . 2 and 3 is an embodiment of a coil according to the invention, for example, as part of a transducer of the vibration type or a vibronic measuring device thus formed useful 1 shown.

The sink 1 comprises a basic body 11 with a first end formed by a first end face 11+ and one to the end 11+ distal, by a, for example, to the same first end face parallel second end formed second end 11 # , a coil carrier 12 with a first end formed by a first end face 12+ and one to the end 12+ distal, by a, for example, to the same first end face parallel second end formed second end 12 # , And one wound around the bobbin of an electrically conductive material, for example, namely copper or a copper alloy or platinum or a platinum alloy. The - here circular cylindrical or disc-shaped - basic body 11 may for example be made of a metallic material, for example steel or titanium or a titanium alloy. Equally, for example, the coil carrier of a metal, for example, steel, titanium or a titanium alloy or from the same metal as the main body 11 , consist. As material for the coil carrier 12 In addition, however, also ceramic as well as plastic, for example, a thermoplastic material, such as polyetheretherketone (PEEK), in question. The screw 13 , For example, also redeemable to be mechanically connected to each other. That's what the end of it 11+ until its end 11 # extending, for example, straight or circular cylindrical, through hole 11A and the coil carrier 12 from the end 12+ until its end 12 # extending, for example, straight or only partially circular cylindrical, through hole 12A on. Furthermore, the coil carrier 12 relative to the main body 11 arranged so that the second end face of the bobbin the main body 11 - Here, for example, the first end face of the body 11 - facing and the passage opening 12A of the bobbin 12 with the passage opening 11A of the main body cursed, in such a way that, as from the synopsis of 1 . 2 and 3 readily apparent, the same - for example, designed as a countersunk screw - screw 13 is positionable so that it partially through the through hole 11A as well as partially through the passage opening 12A is included. To screw the coil 1 to allow with other attachments or an easy-to-handle connection option for the coil 1 to provide, is the screw 13 according to an embodiment of the invention, adapted to the respective size of the two passage openings 11A . 12A , dimensioned so that it extends beyond the second end of the main body, after being in the two through holes 11A . 12A is positioned. For producing a basic body 11 and bobbins 12 Aneinanderfixierenden screw, for example, an additional, against the body 11 serve pushing nut; but the screw can also be prepared, for example, that, as well as in 3 schematically indicated, a through hole 11A of the basic body 11 enveloping inner surface of the body 11 has an internal thread that with a corresponding external thread of the screw 13 is engaged.

a first connection line 111 with at least one vein 111A made of electrically conductive material and at least one second connecting line 112 with at least one vein 112A made of electrically conductive material. The wires of the connecting cables 111 . 112 may for example consist of the same material or for example each of silver or a silver alloy or copper or a copper alloy. Each of the connection lines 111 . 112 shows - as well as from a synopsis of 1 and 2 readily apparent - also one the respective vein 111 ' respectively. 112 ' enveloping, for example hose-like, insulation 111 '' respectively. 112 '' made of an electrically non-conductive or poorly conductive material. Not least for the case mentioned that the coil 1 is useful as part of a transducer of the vibration type, thus provided to be exposed during operation mechanical vibrations, have the leads 111 . 112 according to a further embodiment, in each case one, for example by means of glass fibers, textile insulation for electrical Isolation of the wires. As an alternative or in addition to this, however, the insulation can also be formed, for example, by means of a homogeneous lacquer layer or a plastic sheath covering the respective core. As in 1 shown schematically, the wires of the connection line 111 with a - of course exposed, namely not surrounded by an insulation - first end 14+ of the coil wire and the wire of the lead wire 112 with one - as well as the first end 14+ not encased in isolation - second end 14+ the coil wire electrically conductively connected, for example, namely cohesively or by means of a soft or a brazed joint.

In the coil according to the invention 1 is formed by the construction between the second end face of the bobbin and the first end face of the body intermediate space 20 used in particular for the connection lines 111 . 112 in addition to fix, so that one vorbe vorbezeichnet - namely between the wire of the connecting line 111 and the end 14+ of the coil wire or the wire of the connection line 112 and the end 14 # of the coil wire made - connection between the leads 111 . 112 and the coil wire 14 or the coil wire 14 in itself against any overstress, such as due to acting on the leads tensile or shaking forces, or a concomitant destruction protective strain relief for the leads 111 . 112 provided. For the coil of the invention, each of the at least two leads 111 . 112 in the installed position in each case proportionately in the intermediate space formed between the coil carrier and the base body 20 placed to be fixed by means of a self-adhesion and formed in conjunction with the main body, coil support and screw frictional connection. In the embodiment shown here is by means of the screw 13 formed a screw which transmits an axial, namely acting in the direction of an imaginary longitudinal axis of the screw clamping force on the bobbin; this in particular in such a way that coil carrier and / or screw experience elastic deformations. body 11 , Coil carrier 12 together with the connecting cables 111 . 112 are also set up in the interspace 20 taking advantage of restoring or clamping forces generated by elastic deformations of bobbin or screw to cause a connection fixing frictional connection. The height of the clamping forces or of a resulting, the connecting line fixing static friction force can be adjusted by means of the screw or by an expended on their fastening torque.

Not least when using leads with a textile insulation for the respective wire is further provided, the insulation is at least up in the gap 20 into, but ideally - as in 1 hinted- also to extend slightly beyond, such that within the space 20 threaded sections of each of the wires 111 ' . 112 ' from the respectively associated isolation 111 '' respectively. 112 '' are enveloped. This allows for a very high holding forces for the connecting cables 111 . 112 achieved fixing non-positive and on the other hand in a very simple, yet effective way prevents splitting or tearing of the insulation, but at least prevent further spread any cracks in the insulation safely.

For the purpose of improving a lateral support for the inside of the gap 20 positioned sections of the leads 111 . 112 is according to a further embodiment of the invention in the first end face of the body 11 at least one laterally of its passage opening 11A spaced - for example, grooved - recess 11B for receiving at least one of the at least two connecting lines 111 . 112 or a subsection thereof. Same recess 11B can, as well as in 4 shown schematically, be set up for both the connection line 111 as well as the connection line 112 or a respective subsection thereof. But it can also be beneficial, in addition to the recess 11B another, second, for example, also groove-shaped or to the recess 11C identical - recess 12C in the second end face of the main body 11 mold, for example, such that the two - in this case substantially parallel or substantially straight - recesses 11B . 11C spaced apart, however, each of the two recesses 11B . 11C in the lateral distance to the passage opening 11A runs. According to another embodiment of the invention therefore has the first end face of the main body 11 both one side of the passage opening 11A spaced - for example, grooved - recess 12B for receiving the connection cable 111 and one side of the passage opening 11A spaced - for example, groove-shaped and / or parallel to the first recess - second recess 12C for receiving the connection cable 112 on, and is also provided that the connection line 111 proportionate of the recess 12B and the connection line 112 proportionate of the recess 12C are included. Alternatively or in addition, but also the bobbin, as well as in 5 or shown schematically, one or more such recesses for receiving the connection line 111 respectively. 112 exhibit. For example, coil support and base body can also be arranged so that the first end face of the base body and the second end face of the bobbin not only facing each other are, but that also bobbin and body contact each other surface. Moreover, the recess may, for example, also have a form-locking connection with the respectively associated connection line causing, thus, the holding or extraction forces established in the installation position, increasing transverse grooves or grooves.

To simplify the installation of the coil 1 , not least also in the positioning of the leads, but also in order to increase the holding forces achieved by the frictional connection, the coil 1 According to a further embodiment of the invention, a molding 15 with a first end formed by a first end face 15+ and with a to the first end 15+ distal, by a, for example, to the same first end face parallel second end formed second end 15 # on. In the embodiment shown here is the same - for example, a plastic and / or of a ceramic and / or a metal and / or from the same material as the bobbin existing - molding 15 relative to coil carrier 12 and basic body 11 arranged so that the first end face of the molded part facing the bobbin and the second end face of the molded part facing the base body. Furthermore, the molding and body are designed so that they contact each other as possible in the installed position.

The molding 15 also shows one from the end 15+ until the end 15 # extending, for example, straight and / or circular cylindrical passage opening 15A on and is in installation position in between the coil carrier and the body formed intermediate space 20 placed. The molding 15 is arranged relative to the coil carrier and base body so that the passage opening 15A As if from a synopsis of 6 . 7 and 8th readily apparent - both with the passage opening 11A of the basic body 11 as well as with the passage opening 12A of the bobbin 12A Aligns, namely also so that, as from the synopsis of 6 . 7 and 8th readily apparent, the screw 13 at the same time through the passage opening 11A , the passage opening 12A as well as the through hole 15A hindurchführbar, thus partially from the through hole 11A , the passage opening 12A as well as the passage opening 15A is included. In addition, also the molding 15 , as from the synopsis of 7 . 8th and 9 seen, one or more laterally from the through hole 15A spaced or groove-shaped recesses for receiving one or more leads of the coil. Therefore, according to a further embodiment of the invention in the first end face of the molding 15 at least one recess 15B for receiving at least one of the at least two connecting lines 111 . 112 , For example, also for receiving both the connection line 111 as well as the connection line 112 , molded. In addition, the molded part 15 but also at least one more - for example, to the recess 15B parallel or identical - recess 15C have, so that, as well as in the 7 . 8th and 9 shown, the connection line 111 proportionate of the recess 15B and the connection line 112 proportionate of the recess 15C are included. The at least one recess or the recesses 111 . 112 and the leads can be dimensioned in an advantageous manner further coordinated so that, as a result, that the molding and coil support, as from 7 respectively. 9 can be seen in the installation position contacting each other flatly.

As already mentioned, the coil according to the invention is also provided in particular as part of a vibration-type transducer, for example a vibration generator or a vibration sensor, or a vibronic measuring device formed by such a transducer, for example a Coriolis mass flowmeter, a density transducer. Serve meter or a viscosity meter.

Such a transducer has, as in 10 schematically illustrated at least one measuring tube 101 with one of a pipe wall 101A surrounded lumens 101B , The at least one - for example, at least partially straight and / or at least partially curved - measuring tube is set up especially for it, in its lumen 101B a fluid or at least temporarily flowing medium, for example a gas or a liquid, to be guided and vibrated during this, for example, to allow the at least one measuring tube to perform mechanical vibrations around its associated static rest position, which are suitable in the flowing medium from a mass flow rate, m, to induce dependent Coriolis forces, and / or which are suitable for inducing in the flowing medium a viscosity, η, the same medium-dependent frictional forces, and / or which are suitable in the flowing medium for a density, ρ, the same medium to induce dependent inertial forces. The transducer further comprises one with the at least one measuring tube 101 connected here namely on the outside of its, for example, a stainless steel, titanium, tantalum, zirconium or a nickel-based alloy existing pipe wall 101A fixed - permanent magnets 2 on. The sink 2 is in turn placed so that it is flooded by a magnetic field of the permanent magnet. For example, the coil 2 , as in 10 indicated, on one, possibly also to the measuring tube 101 identical, another measuring tube or else - as with transducers of the vibration type with a single measuring tube quite common - on a possibly present, according to the operation not be secured by a medium to be measured flowed counter-oscillator.

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.

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Claims (16)

Kitchen sink ( 1 ), in particular for a transducer of the vibration type, comprising: - one, in particular consisting of a metallic material and / or circular cylindrical and / or disc-shaped, basic body ( 11 ) having a first end formed by a first end face ( 11+ ) of the main body to a second end which is distal to the first end and which is parallel to the first end face, in particular to a first end face ( 11 # ) of the main body extending, in particular straight and / or enclosed by an internal thread having an inner surface of the body, through-hole ( 11A ; 11A ' ); A coil carrier (esp.) Consisting of a plastic and / or of a ceramic and / or a metal ( 12 ) having a first end formed by a first end face ( 12+ ) of the bobbin carrier to a second end which is distal to the first end and which is formed by a second end face parallel to a first end face, in particular. 12 # ) of the bobbin extending, esp. Straight, passage opening ( 12A ), wherein the coil carrier ( 12 ) relative to the main body ( 11 ) is arranged so - that the second end face of the bobbin facing the base body and between the second end face of the bobbin and the first end face of the base body, a gap ( 20 ) is formed, - and that the passage opening ( 12A ) of the bobbin with the passage opening ( 11A ) of the main body, esp. In such a way that in one through both the through hole ( 11A ) as well as the passage opening ( 12A ) extending screw is positionable; - A recorded both from the through hole of the bobbin and the passage opening of the body, esp. Namely on the second end of the body extending beyond and / or trained as a countersunk screw, screw ( 13 ) for mechanically connecting the coil carrier and the base body; - A wrapped around the bobbin, esp. Metallic and / or coated with an electrically insulating paint layer, made of an electrically conductive material, esp. Namely copper or a copper alloy or platinum or a platinum alloy; - And at least two, in each case proportionately placed in the intermediate space formed between coil carrier and body, esp. By means of a within the space ( 20 ) caused frictional fixed, connecting cables ( 111 . 112 ), of which - a first connecting line ( 111 ) at least one with a first end ( 14+ ) of the coil wire electrically conductively connected, esp. Metallic and / or at least partially enveloped by a textile insulation, core ( 111A ) of electrically conductive material, in particular of silver or a silver alloy or copper or a copper alloy, and - a second connecting line ( 112 ) at least one with a second end ( 14 # ) of the coil wire ( 14 ) electrically conductive, in particular metallic and / or at least partially enveloped by a textile insulation, core ( 112A ) of electrically conductive material, esp. Namely made of silver or a silver alloy or copper or a copper alloy or of the same material as the wire of the first lead, have. Coil according to one of the preceding claims, wherein the first end face of the main body ( 11 ) at least one, in particular laterally of its passage opening ( 11A ) spaced and / or grooved, recess ( 11B ) for receiving at least one of the at least two connecting lines, esp. Namely for receiving both the first connecting line and the second connecting line having. Coil according to the preceding claim, - wherein the first end face of the main body ( 11 ) - one, in particular laterally of its passage opening ( 11A ) spaced and / or groove-shaped, first recess ( 12B ) for receiving the first connection line ( 111 ) - and one, in particular laterally of its passage opening ( 11A ) spaced and / or groove-shaped and / or parallel to the first recess, the second recess ( 12C ) for receiving the second connection line ( 112 ) having; and - wherein the first connection line ( 111 ) proportionally from the first recess ( 12B ) and the second connection line ( 112 ) proportionately from the second recess ( 12C ) are included. Coil according to one of the preceding claims, wherein the second end face of the bobbin ( 12 ) at least one, in particular laterally of its passage opening ( 12A ) spaced and / or grooved, recess ( 12B ) for receiving at least one of the at least two connecting lines, esp. Namely for receiving both the first connecting line and the second connecting line having. Coil according to one of the preceding claims, wherein the bobbin and the base body are arranged so that the first end face of the base body and the second end face of the bobbin facing each other, esp. Such that bobbin and body contact each other surface. Coil according to one of claims 1 to 4, further comprising: - a, in particular of a plastic and / or of a ceramic and / or a metal and / or of the same material as the bobbin existing, Molded part ( 15 ) having a first end formed by a first end face ( 15+ ) of the molded part to a second end which is distal to the first end and which is parallel to the first end face, in particular to a first end face ( 15 # ) of the molding extending, esp. straight, passage opening ( 15A ), - wherein the molding in the space formed between the coil carrier and the body ( 20 ) and arranged relative to the coil carrier and base body so that the passage opening ( 15A ) of the molding both with the passage opening of the base body and with the passage opening of the bobbin, esp. In such a way that a passage of the screw is made possible, is aligned; - and where the screw ( 13 ) proportionately also from the passage opening ( 15A ) of the molded part ( 15 ) is recorded. A spool according to claim 6, wherein the molding is arranged relative to the bobbin and base body so that the first end face of the molding faces the bobbin and the second end face of the molding faces the body, especially so that the molding and body contact each other flatly and / or that molding and coil carrier contact each other surface. Coil according to one of claims 6 to 7, wherein the first end face of the molding at least one, in particular laterally of the through hole ( 15A ) spaced and / or grooved, recess ( 15B ) for receiving at least one of the at least two connecting lines, esp. Namely for receiving both the first connecting line and the second connecting line having. Coil according to claim 6, - wherein the first end face of the molded part - a, in particular laterally spaced from the passage opening and / or groove-shaped, first recess ( 15B ) for receiving the first connection line ( 111 ) - and one, in particular laterally of its passage opening ( 15A ) spaced and / or groove-shaped and / or parallel to the first recess, the second recess ( 15C ) for receiving the second connection line ( 112 ) having; and - wherein the first connection line is proportionally received by the first recess and the second connection line proportionally from the second recess. Coil according to one of the preceding claims, - wherein the coil carrier ( 12 ) - a, in particular hollow cylindrical, winding segment ( 12B ), - a first edge segment bordering on a first end of the winding segment, in particular hollow-cylindrical and / or projecting to form an annular winding boundary surface ( 12C ) - as well as a second edge segment which borders on a second end of the winding segment that is distal to the first end and in particular has a frusto-conical contour and / or protrudes to form an annular winding boundary surface ( 12D ), and - wherein the coil wire ( 14 ) namely on the winding segment ( 12B ) is wound. Coil according to the preceding claim, - the passage opening ( 12A ) of the bobbin carrier ( 12 ) within the second boundary segment ( 12D ), in particular a step-shaped, cross-sectional change, in particular such that a support surface for a screw head ( 13A ) of the screw ( 13 ) is formed; and / or - the screw ( 13 ) a screw head ( 13A ), and so within the bobbin ( 12 ) is placed, that the screw head ( 13A ) within the second boundary segment ( 12D ) is positioned. Coil according to one of the preceding claims, wherein by means of the screw ( 13 ) A screw connection is formed which transmits an axial, namely acting in the direction of an imaginary longitudinal axis of the screw clamping force on the bobbin, esp. Such that coil bobbin and / or screw have elastic deformations. Coil according to one of the preceding claims, wherein the base body, coil carrier are arranged together with the connecting lines for effecting in the space a connecting lines fixing frictional connection, esp. With one of a transmitted by means of the screw on the coil carrier clamping force dependent Haftreibkraft. A spool according to claim 12 and 13, wherein the frictional engagement has a friction force dependent on the clamping force. Coil according to one of the preceding claims, consisting of copper or a copper alloy; and / or - wherein the core of the first lead is made of silver or a silver alloy; and / or - wherein the core of the second lead is made of the same material as the lead of the first lead; and / or - wherein the core of the first connection line is at least partially surrounded by a textile insulation, in particular a fiberglass insulation; and / or - wherein the core of the second connection line is at least partially enveloped by the same insulation as the core of the first connection line; and or - Wherein the bobbin of, esp. Thermoplastic, plastic, esp. Polyetheretherketone (PEEK) exists; and / or - wherein the core of the first connecting line is integrally connected to the first end of the coil wire; and / or - wherein the core of the second connecting line is integrally connected to the second end of the coil wire. Vibration-type transducer comprising: - at least one measuring tube (esp. At least sectionally straight and / or at least sectionally curved) 101 ) having a lumen surrounded by a tube wall and adapted to guide in a lumen a flowable medium, esp. A gas and / or a liquid, and be vibrated during this, esp. Such that the same metal tube mechanical vibrations to perform a related static rest position, which are capable of inducing in the flowing medium of a mass flow rate, m, dependent Coriolis forces, and / or that the same metal tube performs mechanical vibrations around a static rest position associated therewith, which are suitable in the flowing medium of a viscosity, η, the same medium to induce dependent frictional forces, and / or that said metal tube performs mechanical oscillations about a static rest position associated therewith capable of inducing inertial forces in the flowing medium of a density, ρ, of the same medium; - One connected to the at least one measuring tube, esp. Namely outside fixed to the tube wall, permanent magnet; - And a coil according to one of the preceding claims, wherein the same coil is flooded by a magnetic field of the permanent magnet.

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