EP2905536B1 - Heizstab mit internem Isolierstab mit konkaver Spitze und Glühstift damit - Google Patents

Heizstab mit internem Isolierstab mit konkaver Spitze und Glühstift damit Download PDF

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Publication number
EP2905536B1
EP2905536B1 EP14154754.7A EP14154754A EP2905536B1 EP 2905536 B1 EP2905536 B1 EP 2905536B1 EP 14154754 A EP14154754 A EP 14154754A EP 2905536 B1 EP2905536 B1 EP 2905536B1
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EP
European Patent Office
Prior art keywords
distal
heating rod
heating
external sheath
thinned
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EP14154754.7A
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English (en)
French (fr)
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EP2905536A1 (de
Inventor
Stojana Veskovic Bukudur
Gregor Kustrin
David Rejc
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Sieva doo PE Spodnja Idrija
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Sieva doo PE Spodnja Idrija
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23QIGNITION; EXTINGUISHING-DEVICES
    • F23Q7/00Incandescent ignition; Igniters using electrically-produced heat, e.g. lighters for cigarettes; Electrically-heated glowing plugs
    • F23Q7/001Glowing plugs for internal-combustion engines

Definitions

  • the present invention relates to a heating rod and in particular, but not exclusively, to a heating rod of a glow plug used for preheating a diesel engine. It also relates to a glow plug including such a heating rod.
  • a heating rod of a glow plug is in the form of a rigid rod or bar, which extends longitudinally according to an axis, called the main axis, from a body of the plug into the combustion chamber.
  • distal and its derivatives designate directions, elements or parts which are situated axially on the side of the free extremity of the heating rod, which is intended to extend into the combustion chamber
  • proximal and its derivatives designate directions, elements or parts which are situated axially on the opposite side, i.e. towards the connection towards the outside of the cylinder head of the engine on which the glow plug is intended to be fitted.
  • a heating rod extends from the plug body, and has a proximal extremity which is equipped with an electrical connection which forms a first electrical power supply terminal of the heating rod, in general with an electrode which axially and proximally extends beyond the proximal extremity of the heating rod.
  • electrically insulator and their derivatives relate to a dielectric material which electrical resistance is sufficient to prevent any passing of an electric current in predetermined operation conditions of the heating rod.
  • a glow plug includes a cylindrical plug body having a threaded external portion for fitting on a cylinder head, and, at the distal portion of the plug body, a cylindrical internal housing for receiving a proximal portion of the heating rod.
  • Said housing has an opening for the passage of the heating rod such that the heating rod axially and distally extends, projecting (on the distal side) beyond said proximal portion and the opening.
  • the heating rod has a distal heating portion extending from said opening as far as the distal extremity of the heating rod.
  • a known heating rod ( US2010/0133252 ) includes:
  • a heating rod of a glow plug must very quickly make a high temperature available to assist the ignition process, subsequently maintaining this temperature regardless of boundary conditions or even adapting it to suit them.
  • the glow plug is located in the combustion chamber, and must sustain the operating conditions in the combustion chamber, in particular a temperature which can be up to 1400°C and a pressure which can be up to 20MPa. Also, during pre-heating, a high current flows via the electrode to the heating wire, therefore all the elements of a heating rod which are electrically conductive must sustain high currents, up to some amperes.
  • a known heating rod for a glow plug is generally manufactured as followed. First a core is inserted into a heating wire coil. The distal end of the external sheath is made in a thinned (tapered or rounded) shape and closed. The proximal end of the heating wire encircling the core is then connected to a distal end of an electrical terminal supply, such as an electrode. The heating rod connected to the electrode and the core are then disposed in the external sheath and the heating wire distal free end is welded to the external sheath distal closed end. Then the external sheath is filled with the electrically insulating powder. A sealing is placed between the external sheath proximal side and the electrode so as to seal the heating rod. Thereafter the heating rod is subjected to a swaging (rotation forging) step which reduces the heating rod diameter in order to make it compact. The thus-produced heating rod is inserted into the receiving housing of the glow plug body to complete the glow plug.
  • the function of the external sheath consists in assembling and maintaining all the heating rod pieces together.
  • the external sheath is made of a metal alloy, which is an electrically conductive material.
  • the electrically insulating powder located between the external sheath and the heating wire coil prevents any contact of both pieces with one another, avoiding any undesired short-circuit that could damage the glow plug and reduce its lifetime.
  • the electrically insulating powder has also a thermally conductive role. The heat generated by the heating wire has to be transmitted from the heating wire to the external sheath to thereby directly preheat the cylinder interior of a diesel engine or the like.
  • the invention is thus aimed at overcoming these disadvantages of the prior art.
  • Another object of the invention is to reduce the cumbersome of the glow plug, by proposing a more compact and thinner heating rod, and so a quicker responding heating rod.
  • the invention is also aimed at allowing an optimally filling of the heating rod and thus at providing a better hold of the heating rod pieces during a swaging step.
  • the invention is, in particular, aimed at further increasing the thermal conductivity of the heating rod and the glow plug efficiency.
  • the invention is also aimed at increasing the life time of the glow plug.
  • the invention is aimed at overcoming manufacturing problems of the heating rod and of the glow plug, by proposing an easier and cheaper process for manufacturing the heating rod.
  • the invention is in particular aimed at avoiding any positioning troubles of the various pieces of the heating rod, in particular the internal core relative to the external sheath and to the heating coil(s).
  • the invention concerns a heating rod comprising:
  • Said distally thinning continuously curved concave portion is thinning from a proximal end thereof toward a distal end thereof, i.e. when axially going toward the distal end of said distal tip.
  • the concavity of said distally thinning continuously curved concave portion is radially outward oriented i.e. any straight line normal to said trace oriented toward the concavity is oriented outwardly and at least partially radially with regard to the longitudinal axis of the external sheath.
  • said peripheral outer surface trace of thinned distal tip comprises a fully rounded curve between a junction proximal end of said peripheral outer surface trace and a distal extreme end of said peripheral outer surface trace.
  • said junction proximal end joins the distal tip to a main cylindrical portion of said core.
  • the distal extreme end of the thinned distal tip of the core may not be itself entirely rounded, but the peripheral outer surface trace is made of a fully rounded curve. In other embodiments according to the invention, the distal extreme end of the thinned distal tip of the core is also itself fully rounded.
  • said peripheral outer surface trace may comprise several continuously curved concave portions extending in the continuation of each other, either directly and/or being two by two joined by convex portions, the latter also preferably being continuously curved.
  • said peripheral outer surface trace of said thinned distal tip comprises only one concave portion between a junction proximal end of said peripheral outer surface trace and a distal extreme end of said peripheral outer surface trace.
  • said concave arc of a circle has a radius comprised between 5 mm and 100 mm. Other dimensions are possible.
  • said peripheral outer surface of thinned distal tip is fully rounded around said longitudinal axis.
  • said distal core also has a proximal tip, and this proximal tip is also preferably shaped similarly to the distal tip.
  • said distal core has a thinned proximal tip shaped so as to have a peripheral outer surface trace, in any axial longitudinal plane, having at least one proximally thinning continuously curved concave portion having a radially outward oriented concavity.
  • the heating rod according to the invention may include several electrically insulating cores axially extending in the continuation of each other.
  • each electrically insulating core is made of the same ceramic material.
  • two axially adjacent electrically insulating cores are connected to one another by their tips having conjugated shapes, i.e. one of those tips is a male tip as above described, and the other one is a corresponding female tip configured to receive said male tip.
  • the invention also concerns a glow plug including:
  • the invention also concerns a heating rod and a glow plug characterized in combination by all or some of the features mentioned above or below.
  • Said external sheath 58 comprises an open proximal end 71 and a closed distal end 72.
  • the closed distal end 72 is thinned.
  • the distal end 72 is rounded and has a substantially hemispherical shape. Other shapes are possible.
  • the heating wires 59, 60 comprise a glow resistor 59 forming a distal heating coil, and a regulation resistor 60 forming a proximal heating coil.
  • the glow resistor 59 extends between the distal closed end 72 of the external sheath 58 and the distal end of the regulation resistor 60.
  • the proximal end of the regulation resistor 60 is fastened by welding to the distal end of the electrode 56.
  • the distal end of the regulation resistor 60 is fastened by welding to the proximal end of the glow resistor 59.
  • the distal end of the glow resistor 59 is fastened by welding to the internal surface of the distal closed end 72 of the external sheath 58.
  • An electrically insulating (and preferably thermally conductive) powder 62 is filling the external sheath 58.
  • at least one electrically insulating internal sleeve 63 is inserted between the heating wires 59, 60 and the external sheath 58.
  • the heating wires 59, 60 forming the glow resistor 59 and the regulation resistor 60 are relatively soft, so they may bend or become eccentric during a rotation forging (swaging) step.
  • Said internal sleeve 63 prevents contacts between the external sheath 58 and the heating wires 59, 60.
  • the heating rod 52 comprises an electrically insulating internal core 61 inserted into the heating coils which helically extend around said core 61.
  • the core 61 longitudinally extends, along the longitudinal axis 50, in said external sheath 58.
  • the core 61 maintains the heating wires 59, 60 in position, in particular during a rotation forging (swaging) process.
  • the glow resistor 59 is a helically coiled filament (heating wire), whose distal end is welded in a bore-hole to the distal end 72 of the external sheath 58, and whose proximal end is welded to the regulation resistor 60 distal end. Thanks to the bore-hole and to its tight closure, good electrical conductivity is achieved from the glow resistor 59 to the external sheath 58.
  • the wire forming the glow resistor 59 is advantageously made of ferrite steel that contains chromium and aluminum apart from iron. Optimal mechanical and thermal properties are achieved through the following composition: 22% of Cr, 5.3% of Al and 72.7% of Fe. Such alloy is for instance Kanthal AF® (trademark of Sandvik Heating Technology).
  • the core 61 located inside said heating wires 59, 60 has an outer dimension corresponding to the helically wound wire inner dimension, that is to say the internal diameter of the smaller heating wire spires, so that the core 61 is housed in the heating wires winding.
  • Said outer dimension of the core 61 is substantially the same than said helically wound wire inner dimension, so that there is a contact between an inner surface of the wires and an outer surface of the core.
  • a mounting clearance may exist between said helically wound wire inner dimension and said outer dimension of the core 61. This clearance is defined by the ratio of the outer dimension of the core 61 on the helically wound wire inner dimension. Said ratio is preferably comprised between 0.95 and 1.
  • the heating rod 52 preferably comprises one core 61 ( figures 2 and 3 ); however, in some embodiments the heating rod 52 comprises several smaller cores, or a smaller core with some electrically insulating powder completing the space left by this smaller core, as shown for example on figure 5 .
  • the core 61 can be made from various materials that must be electrically insulating and sustain high temperature of the operating conditions. It is preferably made of a ceramic material such as aluminum oxide Al 2 O 3 .
  • the core 61 is an injection molded ceramic piece, preferably sintered, for example at a temperature between 900°C and 1300°C, before being inserted into the heating rod 52.
  • the core 61 is rod-like ceramic piece with a main cylindrical central portion 78, and has a distal tip 74 and a proximal tip 75.
  • the distal tip is a thinned distal tip 74 so as to accommodate the shape of the thinned distal end portion 76 of the distal heating coil (glow resistor 59) and the thinned distal closed end 72 of the external sheath 58.
  • the thinned distal tip 74 of core 61 is best illustrated on figures 7 and 8 . It is shaped so as to have a peripheral outer surface which is a surface of revolution about the longitudinal axis 50, and has a distally thinning continuously curved concave surface portion 77 having a radially outward oriented concavity.
  • the peripheral outer surface of the thinned distal tip 74 of core 61 has a trace, in any axial longitudinal plane and on each side of the longitudinal axis 50, which has (as shown on figure 7 ) a distally thinning continuously curved concave portion 79 having a radially outward oriented concavity. Any line normal to this concave portion and extending in the concavity is oriented relative to axis 50 outwardly and at least partially radially (i.e. not entirely axially).
  • the distally thinning continuously curved concave surface portion 77 is a surface of revolution theoretically generated by rotation of said trace about the longitudinal axis 50. It is distally thinning, i.e. its diameter decreases from a proximal junction end 80 of said distal tip 74 (where it is joined to its main cylindrical central portion 78) toward a distal extreme end 81 of said distal tip 74.
  • the proximal junction end 80 of said distal tip 74 is also continuously curved (rounded) and convex.
  • the distal extreme end 81 of said distal tip 74 is also continuously curved (rounded) and convex.
  • Other shapes are possible, for example a flat transverse plate, or even a hollow axial recess, as distal extreme end.
  • the thinned distal tip 74 of core 61 is thus shaped like a continuously curved (fully rounded) concave stud or nipple easily inserted in the thinned distal end 76 of the distal heating coil 59.
  • said trace is formed of said distally thinning continuously curved concave portion 79; of a continuously curved proximal convex portion 82 linking said concave portion 79 to a straight line (which is the trace of said main cylindrical central portion 78 in the same plane) parallel to the axis 50; and of a continuously curved distal convex portion 83 linking said concave portion 79 to said distal extreme end 81 of said distal tip 74.
  • the proximal convex portion 82 is linked to said concave portion 79 by an inflexion point 84.
  • the distal convex portion 83 is linked to said concave portion 79 by an inflexion point 85.
  • Each of the concave and convex portions 79, 82, 83 is continuously curved without any sharp edge or rib, and can have any appropriate exact shape, for example chosen in the group comprising an arc of a circle, an arc of an ellipse, an arc of a parabola, and an arc of a hyperbola, combination thereof or other (or even an unremarkable curve).
  • said concave portion 79 is an arc of a circle with a radius Rc
  • said proximal convex portion 82 is an arc of a circle with a radius R1
  • said distal convex portion 83 is an arc of a circle with a radius R2.
  • the distal tip 74 has an axial height h and a rounded distal extreme end 81 having a diameter ⁇ at its junction (inflexion point 85) with said concave surface portion 77.
  • the proximal tip 75 of the distal core 61 is a flat transverse plate in the first embodiment of figures 2 , 3 and 4 .
  • the proximal tip 75 of the distal core 61 is similar to the distal tip 74, i.e. it is also shaped like a concave stud or nipple. More preferably both proximal 75 and distal 74 tips of the distal core 61 are identical (same shapes and dimensions), so that the distal core 61 can be used in either orientation when manufacturing the heating rod 52, which makes it much easier.
  • the second embodiment of figures 5 and 6 also differs from the first one by the fact that no internal sleeve is provided in the heating rod 52, the external sheath being only filled with insulating ceramic powder 62.
  • the glow resistor 59 and the regulation resistor 60 are electrically insulated from the external sheath 58 by an internal sleeve 63.
  • the internal sleeve 63 has not only good electrical insulation properties but also good thermal conductivity at high temperatures and thus provides an improved transfer of heat generated by an electrical current flowing through the heating wires 59, 60.
  • the internal sleeve 63 is preferably made of a ceramic insulating material as for instance electro-melted magnesium oxide MgO.
  • At least one internal sleeve 63 may also extend along at least a part of the electrode 56.
  • each internal sleeve 63 is a ceramic block, which is also preferably pre-sintered for example at a temperature between 900°C and 1300°C.
  • the inner dimension of the internal sleeve 63 corresponds to the helically wound wire outer dimension, that is to say the external diameter of the larger heating wire spires, so that the heating wires 59, 60 are housed in said internal sleeve 63.
  • the term “larger” covers as well “larger or equal”, and “strictly larger”, that is to say this term encompasses the case where the inner dimension of the internal sleeve 63 is strictly larger than the helically wound wire outer dimension, and also the case where the inner dimension of the internal sleeve 63 is substantially the same than the helically wound wire outer dimension.
  • the inner dimension of the internal sleeve 63 is substantially the same than the helically wound wire outer dimension, advantageously with a mounting clearance between said inner dimension of the internal sleeve 63 and said helically wound wire outer dimension.
  • This mounting clearance is defined by the ratio of the helically wound wire outer dimension on the inner dimension of the internal sleeve 63. Said ratio is preferably comprised between 0.95 and 1.
  • the outer dimension of the internal sleeve 63 corresponds to the external sheath inner dimension, that is to say both dimensions are substantially the same. Additionally said outer dimension of the internal sleeve 63 is smaller than said external sheath inner dimension so that the internal sleeve 63 is housed in said external sheath 58.
  • the term “smaller” covers as well “smaller or equal”, and “strictly smaller”, that is to say this term encompasses both the case where the outer dimension of the internal sleeve 63 is strictly smaller than the external sheath inner dimension, and also the case where the outer dimension of the internal sleeve 63 is substantially the same than the external sheath inner dimension.
  • the outer dimension of the internal sleeve 63 is substantially the same than the external sheath inner dimension, advantageously with a mounting clearance between said outer dimension of the internal sleeve 63 and said external sheath inner dimension.
  • This mounting clearance is defined by the ratio of the outer dimension of the internal sleeve 63 on the external sheath inner dimension. Said ratio is preferably comprised between 0.95 and 1.
  • the internal sleeve 63 has both open axial ends: a proximal open end allowing the passing of the electrode 56 and/ or of the proximal end of the regulation resistor 60; and a distal open end allowing the passing of the distal end of the glow resistor 59 and the thinned distal tip 74 of the internal core 61. At least one of those open axial ends may comprise a device to electrically insulate the different heating wires 59, 60 ends from each other at the passing through this open axial end.
  • the internal sleeve 63 One function of the internal sleeve 63 is to transfer the heat from the heating wires 59, 60 to the external sheath 58. Because the internal sleeve 63 is pre-sintered, a better level of strength is reached (compared to a ceramic powder) which is suited for handling and embedding the heating rod 52. In particular, the internal sleeve 63 allows manufacturing of a very slim heating rod 52 during a rotational forging step which reduces the heating rod radial size. Also having a thinner heating rod 52 increases the heat transfer efficiency by reducing the path between the heating wires 59, 60 and the external sheath 58, which decreases heat losses.
  • a pre-sintered internal sleeve 63 with good electrical insulating and thermal conductivity properties provides with an equal temperature distribution over the entire volume of the heating rod 52 and prevents any local overheating.
  • the heating rod 52 also comprises the insulating powder 62 adapted to optimally fill the heating rod 52 and hence to hold together all the heating rod pieces.
  • This powder 62 is made of a ceramic powder, preferably an electro-melted magnesium oxide MgO powder, but it could be made of other ceramic powder which is thermally conductive, electrically insulating and which sustains the predetermined operating conditions of the combustion chamber.
  • the powder 62 is located into at least one groove (several grooves 64 on figure 5 ) or into at least one split of the internal sleeve 63, into the space between the internal sleeve 63 and the external sheath 58, and also into the space between the core 61 and the internal sleeve 63 comprising the heating wires 59, 60.
  • the powder 62 is located anywhere where there is air to expel.
  • the size of each groove 64, or the size of each split must largely exceed the average size of the grains of the powder 62. Also the groove(s) 64, or the split(s), allow additional filling of the heating rod 52 by the powder 62.
  • the powder 62 is preferably filled into the heating rod 52 by a vibration process. By filling the external sheath 58, the powder 62 expels air, and thus prevents a subsequent burning of the heating wires during the glowing phase. Additionally, the powder 62 has also the function of holding the internal sleeve 63 and the core 61 in place in relation to the external sheath 58. In order to effectively provide with such a blocking, and also to ease the filling of the heating rod, the heating rod 52 also includes a rotation and/or translation blocking device adapted for rotatably and/or translational blocking said internal sleeve 63 with regard to the external sheath 58 around and/or along said glow plug main axis 50.
  • said blocking device is made of a particular structure of said internal sleeve 63 and/or of said external sheath 58.
  • the above mentioned grooves 64, or the above mentioned split of the internal sleeve 63 constitute such a blocking device.
  • the internal sleeve 63 may also have at least one split axially extending along at least a part of the internal sleeve 63.
  • This split may have a width ranging from 0.1mm to 2mm, and preferably from 0.30mm to 1mm along the entire length of the internal sleeve 63.
  • the cross-section of the split can have various shapes, like for instance a U-shape, a V-shape, a rectangular shape, a trapezium shape...
  • the internal sleeve 63 may have several splits (as soon as they do not separate the internal sleeve in several parts).
  • the internal sleeve 63 has one split axially extending along the entire length of the internal sleeve 63, having a double trapezium shape being wider at the inner and outer surfaces of the internal sleeve 63, thus forming a restricted width between said surfaces, substantially at the middle of its thickness. Also those selected preferential shape, size and distribution of the split provide with an optimal strength of the internal sleeve 63 during the assembly process.
  • the core 61 is inserted into the regulation resistor 60 and the glow resistor 59. Both resistors are positioned in a way that the proximal end of the regulation resistor 59 and the distal end of the glow resistor 60 come in contact to be welded together by a method such as laser welded.
  • the proximal end of the regulation resistor 60 is fastened to the distal end of said electrode 56. This step can be done by various means such as mechanical and/or welding steps.
  • Said internal sleeve 63 is inserted into said external sheath 58.
  • the heating wires forming said glow resistor 59 and said regulation resistor 60 with the core 61 inserted inside, are inserted into the internal sleeve 63 and the external sheath 58.
  • the concave distal tip 74 of the core 61 helps to place and maintain the distal end portion of the heating coil 59 in the closed distal end 72 of the external sheath 58 without any damage to the heating wire.
  • the distal end of the glow resistor 59 is welded to the distal closed end of the external sheath 58 by a welding step such as an arc welding step.
  • a welding step such as an arc welding step.
  • the electrode 56 is slightly lifted at its proximal end to a predetermined height from the heating rod 52, which is fixed. This lifting height may be of several millimeters.
  • This lifting step expands the regulation resistor 60 and the glow resistor 59.
  • This lifting of the electrode 56 changes the temperature distribution in the heating rod.
  • the global temperature of the heating rod 52 remains the same, as the heating wires 59, 60 length does not change; but the temperature per unit of surface of the heating rod 52 decreases as the length of the heating wires forming said glow resistor 59 and said regulation resistor 60 per unit of surface is decreased. Therefore this lifting step makes the temperature distribution more uniform along the heating rod 52.
  • the total length of the glow resistor 59 and the regulation resistor 60 becomes longer. This step also allows an optimal and easier filling of several heating rods 52 simultaneously.
  • the external sheath 58 is then closed at its proximal end by rotation forging. In this way the gasket 57 and the powder 62 can not fall from the external sheath 58. This step allows an easier handling of the heating rod 52 in subsequent operations. The assembly of said heating rod is thus finished.
  • the rotation forging step reduces the content of atmospheric air in pores of the heating rod 52, by firmly compressing the powder 62. This results in a low porosity and a reduced diameter, and increased the length of the heating rod 52. If necessary, the thinner distal end of the heating rod 52 is also shaped by additional rotation forging.
  • heating rod 52 is manufactured, it is inserted into said housing 55 of a glow plug, force fit to a predetermined depth.
  • the internal sleeve 63 facilitates the manufacturing method of a heating rod 52 according to the invention. Indeed, the level of the rotation forging process can be decreased because the internal sleeve 63 and the core 61 are pre-sintered. Additionally, the heating wires 59, 60 with the core 61 inserted inside, are more easily inserted into the external sheath 58 thanks to that fact that the internal sleeve 63 constitutes a landmark; and there are less placement mistake risks for the heating wires 59, 60 with the core 61 inserted inside.
  • heating rod of a glow plug and of their manufacturing method, from the embodiments above described and illustrated in the figures.
  • a glow plug comprising a heating rod with several internal sleeves 63 and/or several cores 61.
  • a glow plug comprising a heating rod with ceramic powder to at least partly replace the core 61.
  • the internal sleeve 63 and the core 61 could be formed with another method than by sintering, like casting or milling or other.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Resistance Heating (AREA)

Claims (15)

  1. Heizstab, Folgendes umfassend:
    (i) eine äußere Hülle (58):
    - die sich axial entlang einer Längsachse (50) erstreckt,
    - ein geschlossenes distales Ende (72) umfassend,
    (ii) eine distale Heizspule (59):
    - die aus einem Widerstandsdraht gefertigt ist,
    - die sich in der äußeren Hülle (58) befindet,
    - die eine äußere Spulenabmessung und eine innere Spulenabmessung aufweist,
    - die einen dünner werdenden distalen Endabschnitt (76) aufweist, der geformt ist, um sich ins besagte geschlossene distale Ende (72) der äußeren Hülle (58) zu erstrecken,
    (iii) einen elektrisch isolierenden distalen Kern (61):
    - der sich radial innerhalb der besagten distalen Heizspule (59) befindet,
    - der eine dünner werdende distale Spitze (74) aufweist, die konfiguriert ist, um in das besagte dünner werdende distale Ende (72) der besagten distalen Heizspule (59) eingeführt zu werden,
    dadurch gekennzeichnet, dass die besagte dünner werdende distale Spitze (74) des besagten distalen Kerns (61) ausgeformt ist, um einen umlaufenden Außenflächenverlauf in irgendeiner axialen Längsebene und auf jeder Seite der besagten Längsachse (50) aufzuweisen, der zumindest einen distal dünner werdenden durchlaufend gekrümmten konkaven Abschnitt (79) aufweist, der eine radial nach außen orientierte Konkavität aufweist.
  2. Heizstab nach Anspruch 1, dadurch gekennzeichnet, dass der besagte umlaufende Außenflächenverlauf der besagte dünner werdenden distalen Spitze (74) eine vollständig gerundete Krümmung zwischen einem proximalen Verbindungsende des besagten umlaufenden Außenflächenverlaufs und einem distalen extremen Ende des besagten umlaufenden Außenflächenverlaufs umfasst.
  3. Heizstab nach einem der Ansprüche 1 oder 2, dadurch gekennzeichnet, dass der besagte umlaufende Außenflächenverlauf der besagten dünner werdenden distalen Spitze (74) lediglich einen konkaven Abschnitt zwischen einem proximalen Verbindungsende des besagten umlaufenden Außenflächenverlaufs und einem distalen extremen Ende des besagten umlaufenden Außenflächenverlaufs umfasst.
  4. Heizstab nach einem der Ansprüche 1 bis 3, dadurch gekennzeichnet, dass der besagte umlaufende Außenflächenverlauf der besagten dünner werdenden distalen Spitze (74) als konkaven Abschnitt zumindest einen gekrümmten Abschnitt umfasst, der aus der Gruppe ausgewählt wird, die einen Kreisbogen, einen Ellipsenbogen, einen Parabelbogen und einen Hyperbelbogen umfasst.
  5. Heizstab nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet, dass der besagte umlaufende Außenflächenverlauf der besagten dünner werdenden distalen Spitze (74) aus einem konkaven Kreisbogen (79) gebildet wird, der ein proximales Ende aufweist, an das ein Wendepunkt zu einem durchgehend gekrümmten proximalen konvexen Abschnitt (82) anschließt, und ein distales Ende, an das ein Wendepunkt zu einem durchgehend gekrümmten distalen konvexen Abschnitt (83) anschließt.
  6. Heizstab nach Anspruch 5, dadurch gekennzeichnet, dass zumindest entweder der besagte proximale konvexe Abschnitt (82), oder der besagte distale konvexe Abschnitt (83) ein Kreisbogen ist.
  7. Heizstab nach einem der Ansprüche 5 oder 6, dadurch gekennzeichnet, dass der besagte konkave Kreisbogen (79) einen Radius aufweist, der zwischen 5 mm und 100 mm beträgt.
  8. Heizstab nach einem der Ansprüche 1 bis 7, dadurch gekennzeichnet, dass die besagte umlaufende Außenfläche der dünner werdenden distalen Spitze (74) voll um die besagte Längsachse (50) herum abgerundet ist.
  9. Heizstab nach einem der Ansprüche 1 bis 8, dadurch gekennzeichnet, dass der besagte distale Kern (61) eine dünner werdende proximale Spitze (75) aufweist, die ausgeformt ist, um einen umlaufenden Außenflächenverlauf in irgendeiner axialen Längsebene aufzuweisen, der zumindest einen distal dünner werdenden durchlaufend gekrümmten konkaven Abschnitt aufweist, der eine radial ach außen orientierte Konkavität aufweist.
  10. Heizstab nach Anspruch 9, dadurch gekennzeichnet, dass sowohl die dünner werdende distale Spitze (74), als auch die dünner werdende proximale Spitze (75) des besagten distalen Kerns ähnliche Formen und Abmessungen aufweisen.
  11. Heizstab nach einem der Ansprüche 1 bis 10, dadurch gekennzeichnet, dass der besagte distale Kern (61) aus einem wärmeleitenden und elektrisch isolierenden Material gefertigt ist.
  12. Heizstab nach einem der Ansprüche 1 bis 11, dadurch gekennzeichnet, dass er ein elektrisch isolierendes Pulver (62) enthält:
    - mit dem der besagte Stab (92) gefüllt ist,
    - das die besagte distale Heizspule (59) und/ oder den besagten distalen Kern (61) im Verhältnis zur besagten äußeren Hülle (58) blockiert.
  13. Heizstab nach einem der Ansprüche 1 bis 12, dadurch gekennzeichnet, dass er Folgendes umfasst:
    - einen Glühwiderstand (59), der die besagte distale Heizspule bildet und ein distales Ende aufweist, das elektrisch mit dem geschlossenen distalen Ende der besagten äußeren Hülle verbunden ist,
    - eine proximale Spule mit einem Regelungswiderstand (60), die ein proximales Ende aufweist, das elektrisch mit einem elektrischen Versorgungsanschluss verbunden ist,
    - wobei ein proximales Ende der besagten distalen Heizspule und ein distales Ende der besagten proximalen Spule mit einem Regelungswiderstand elektrisch miteinander verbunden sind.
  14. Heizstab nach einem der Ansprüche 1 bis 13, dadurch gekennzeichnet, dass er zumindest eine innere Manschette (63) umfasst, die aus einem elektrisch isolierenden Formgussteil gefertigt ist, das sich zwischen der besagten äußeren Hülle (58) und der besagten distalen Heizspule (59) befindet, wobei die besagte zumindest eine innere Manschette:
    - eine Innenabmessung aufweist, die der besagten äußeren Spulenabmessung entspricht, sodass die besagte distale Heizspule (59) darin untergebracht ist,
    - eine Außenabmessung aufweist, die der besagten Innenabmessung der äußeren Hülle entspricht, sodass sie in der besagten äußeren Hülle (58) untergebracht ist,
    - sich in Längsrichtung in der besagten äußeren Hülle (58), zumindest entlang eines Teils der besagten distalen Heizspule (59) erstreckt.
  15. Glühkerze, Folgendes umfassend:
    (i) ein Kerzengehäuse (51), Folgendes umfassend:
    - ein äußeres Befestigungsgewinde,
    - ein Aufnahmegehäuse für einen Heizstab (52),
    (ii) einen Heizstab (52), der zumindest eine Heizspule (59, 60) enthält,
    (iii) einen Stromversorgungsanschluss für die besagte Heizspule,
    dadurch gekennzeichnet, dass der besagte Heizstab (52) ein Heizstab nach einem der Ansprüche 1 bis 14 ist.
EP14154754.7A 2014-02-11 2014-02-11 Heizstab mit internem Isolierstab mit konkaver Spitze und Glühstift damit Not-in-force EP2905536B1 (de)

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DE3927241A1 (de) * 1989-08-18 1991-02-21 Bosch Gmbh Robert Gluehstiftkerze
JP5302183B2 (ja) 2007-03-08 2013-10-02 日本特殊陶業株式会社 グロープラグ及びその製造方法
JP5438961B2 (ja) * 2008-02-20 2014-03-12 日本特殊陶業株式会社 セラミックヒータ及びグロープラグ

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