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EP0174613B1 - Mould for the production of plate grids for lead accumulators - Google Patents

Mould for the production of plate grids for lead accumulators Download PDF

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Publication number
EP0174613B1
EP0174613B1 EP85111263A EP85111263A EP0174613B1 EP 0174613 B1 EP0174613 B1 EP 0174613B1 EP 85111263 A EP85111263 A EP 85111263A EP 85111263 A EP85111263 A EP 85111263A EP 0174613 B1 EP0174613 B1 EP 0174613B1
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EP
European Patent Office
Prior art keywords
thermal conductivity
mold
mould
grid
lead
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
EP85111263A
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German (de)
French (fr)
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EP0174613A1 (en
Inventor
Hans-Joachim Dr. Dipl.-Ing. Golz
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
VARTA Batterie AG
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VARTA Batterie AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by VARTA Batterie AG filed Critical VARTA Batterie AG
Priority to AT85111263T priority Critical patent/ATE33461T1/en
Publication of EP0174613A1 publication Critical patent/EP0174613A1/en
Application granted granted Critical
Publication of EP0174613B1 publication Critical patent/EP0174613B1/en
Expired legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D25/00Special casting characterised by the nature of the product
    • B22D25/02Special casting characterised by the nature of the product by its peculiarity of shape; of works of art
    • B22D25/04Casting metal electric battery plates or the like

Definitions

  • the invention relates to a casting mold from two mold halves for the production of grid plates for lead accumulators, in particular starter grids, which in addition to thin grid ribs and webs have thicker frames and plate flags (DE-C-1 155 833).
  • Lattice molds for starter battery grids are generally made from cast iron. They are held in a hinged mold carrier or mold clamping block, and each mold half can be replaced in it.
  • the mold carriers are provided with a number of cooling channels, if possible in a distribution in which highly overheated surfaces are also exposed to particularly effective cooling.
  • the mold coating consists of all three components. Its primary purpose is insulation by preventing the lead from adhering to the mold and thus acting as a highly effective release agent. It also enables the air in the mold cavity to escape at least over short distances and through pore spaces that are not filled by the lead to the nearest ventilation openings.
  • the coating forms a thermal cushion towards the relatively good heat-conducting mold material and ensures that the poured-in liquid lead does not solidify prematurely, but rather can fill the mold cavity exactly.
  • the necessary constant renewal of the powder layer which is carried out by means of a compressed air atomizer, means that after a whole series of applications, precisely at the places of the shape which form the flags and frames, the heat removal from the molten lead takes place disproportionately much more slowly than from the filigree of the lattice webs with its low accumulation of material, so that one had begun to scrape off the remaining layer at the points mentioned before each new dusting of the mold, so as to make contact with the good heat-conducting mold material closer.
  • each of the two one-piece mold halves has a central part with depressions corresponding to the grid ribs and webs and an edge part with a plate edge has a corresponding larger groove, the edge parts being in direct heat-conducting connection with the associated mold carrier halves, but the central parts being offset against the mold carrier by an air gap.
  • the heat flow out of the thin lattice is delayed by the insulating air pockets formed in this way.
  • the invention has for its object to provide a mold for grid plates, which makes it possible to adjust the different cooling speeds of the frame and the latticework so that a faster workflow is possible after avoiding annoying post-treatment after each casting process or other measures associated with wasted time.
  • An essential idea of the invention is thus the accelerated dissipation of the disproportionately high heat content of the lead melt in the mold cavities corresponding to the flags and plate frames, which is not possible by enlarging the mold cavity surface, with the aid of a mold material that is more thermally conductive and actively supported in this property by a coolant.
  • the base material of the casting mold which usually consists of gray cast iron or certain steel alloys, is replaced according to the invention at the material accumulation points of the casting by a material with a higher specific thermal conductivity.
  • z. B. copper whose thermal conductivity is 384 W / m - K compared to 58 W / m - K for gray cast iron.
  • Aluminum behaves somewhat less favorably with a thermal conductivity of 204 W / m - K, which is further reduced for aluminum alloys down to about 172 W / m - K.
  • a particularly advantageous embodiment of a lattice mold according to the invention is if the thermal conductivity of the better heat-conducting material to the thermal conductivity of the mold base material is approximately in the same ratio as the area-related lead volume at the plate thickening to the area-related lead volume in the area of the actual grid.
  • the purpose according to the invention can also be achieved by a targeted cross-sectional design of the molded parts made of the better heat-conducting material, by designing the cross-section in accordance with its specific thermal conductivity so that the achievable heat outflow by the ratio of the area-related lead volume at the plate thickenings to the area-related Lead volume in the actual grid area is increased.
  • the effectiveness of the thermal bridges only comes into its own when it is thermally connected at the rear as close as possible to a channel through which a cooling medium flows, because the temperature factor contained in the dimension of the thermal conductivity inevitably has an even greater influence, depending on the temperature difference is greater.
  • Water or oil is generally used as the cooling medium.
  • the inserts will be conveniently inserted in the required places before the mold is engraved. There may be rotationally symmetrical parts in the area of the flags, since these are the easiest to manufacture and fit. In the area of the frames, there will have to be strips that may have stems that are not too far apart, which in turn lead to the cooling channels.
  • the dimensioning of the thermal bridges has to be carried out individually from grid to grid in order to achieve the goal of simultaneous cooling with different grid constructions.
  • the figure shows a lattice casting mold 1, in which the base material of the mold is replaced by an insert 2 of higher thermal conductivity with the contours of the flag 3 and the frame 4 in areas of larger accumulations of molten lead.
  • the arrows indicate the direction of the molten lead.
  • the better heat-conducting inserts are closely adjacent, the cooling water channels 5 are arranged.
  • vents 6 are embedded in the mold surface, at the same time integrated in their engraving. These are inserts similar to the thermal bridges according to the invention, but consist of the same basic material as the shape and allow the air compressed in front of the inflowing lead in the web grooves to escape via the capillary joints 7 into the ventilation channel 8.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Cell Electrode Carriers And Collectors (AREA)
  • Molds, Cores, And Manufacturing Methods Thereof (AREA)
  • Optical Elements Other Than Lenses (AREA)
  • Diaphragms For Electromechanical Transducers (AREA)
  • Vibration Dampers (AREA)
  • Ultra Sonic Daignosis Equipment (AREA)
  • Moulds For Moulding Plastics Or The Like (AREA)
  • Battery Electrode And Active Subsutance (AREA)

Abstract

The accumulations of molten lead which correspond to the lugs and frames of molded starter battery plates can be caused to solidify at the same rate as the much thinner grids of the plates by providing a mold having inserts made from a material whose thermal conductivity is higher than that of the base material of the mold in the regions of the mold which are used to form the lugs and frames, provided these inserts are disposed as close as possible to a system of cooling channels. The ratio of the thermal conductivity of the material from which the inserts are made to the thermal conductivity of the base material of the mold should approximate the ratio of the material accumulations on the lugs and frames to that on the rest of the grid.

Description

Die Erfindung betrifft eine Gießform aus zwei Formhälften zur Herstellung von Gitterplatten für Bleiakkumulatoren, insbesondere Startergittern, die neben dünnen Gitterrippen und -stegen dickere Rahmen und Plattenfahnen aufweisen (DE-C-1 155 833).The invention relates to a casting mold from two mold halves for the production of grid plates for lead accumulators, in particular starter grids, which in addition to thin grid ribs and webs have thicker frames and plate flags (DE-C-1 155 833).

Gittergießformen für Starterbatteriegitter werden im allgemeinen aus Gußeisen hergestellt. Sie sind in einem aufklappbaren Formträger oder Formspannblock gehaltert und darin, jede Formhälfte für sich, auswechselbar. Zur raschen Abkühlung des drucklos in die Form eingegossenen Bleis sind die Formträger mit einer Anzahl von Kühlkanälen versehen, und zwar möglichst in einer Verteilung, bei der stark überhitzte Flächen auch einer besonders effektiven Kühlung ausgesetzt sind.Lattice molds for starter battery grids are generally made from cast iron. They are held in a hinged mold carrier or mold clamping block, and each mold half can be replaced in it. For rapid cooling of the lead cast without pressure into the mold, the mold carriers are provided with a number of cooling channels, if possible in a distribution in which highly overheated surfaces are also exposed to particularly effective cooling.

Für ein gutes Gelingen der Gießlinge ist die Vorbehandlung der Gießform durch Beschichten mit Talkum, Graphit oder Korkmehl unerläßlich. In aller Regel besteht die Formenbeschichtung aus allen drei Komponenten. Ihr Zweck ist in erster Linie eine Isolierung, indem sie die Adhäsion des Bleis in der Form verhindert und so als hochwirksames Trennmittel fungiert. Sie ermöglicht weiterhin ein Entweichen der in der Formenkavität befindlichen Luft zumindest über kurze Strecken hinweg und durch Porenräume, die vom Blei nicht ausgefüllt werden, zu den nächstgelegenen Entlüftungsöffnungen.The pretreatment of the casting mold by coating with talc, graphite or cork flour is essential for the casting to succeed. As a rule, the mold coating consists of all three components. Its primary purpose is insulation by preventing the lead from adhering to the mold and thus acting as a highly effective release agent. It also enables the air in the mold cavity to escape at least over short distances and through pore spaces that are not filled by the lead to the nearest ventilation openings.

Nicht weniger wichtig ist aber auch, daß die Beschichtung zum relativ gut wärmeleitenden Formenwerkstoff hin ein Wärmepolster bildet und dafür sorgt, daß das eingegossene flüssige Blei nicht vorzeitig erstarrt, sondern die Formenkavität exakt ausfüllen kann.It is also no less important that the coating forms a thermal cushion towards the relatively good heat-conducting mold material and ensures that the poured-in liquid lead does not solidify prematurely, but rather can fill the mold cavity exactly.

Die notwendige ständige Erneuerung der Puderschicht, die mittels eines Preßluftzerstäubers erfolgt, bringt es nun mit sich, daß nach einer ganzen Serie von Auftragungen gerade an den Stellen der Form, welche die Fahnen und Rahmen bilden, die Wärmeabfuhr aus dem schmelzflüssigen Blei unverhältnismäßig viel langsamer erfolgt als aus dem Filigran der Gitterstege mit seiner geringen Materialanhäufung, so daß man dazu übergegangen war, an den besagten Stellen vor jeder neuen Überstäubung der Form die noch vorhandene Schicht abzukratzen, um so den Kontakt zum gut wärmeleitenden Formenmaterial enger zu gestalten.The necessary constant renewal of the powder layer, which is carried out by means of a compressed air atomizer, means that after a whole series of applications, precisely at the places of the shape which form the flags and frames, the heat removal from the molten lead takes place disproportionately much more slowly than from the filigree of the lattice webs with its low accumulation of material, so that one had begun to scrape off the remaining layer at the points mentioned before each new dusting of the mold, so as to make contact with the good heat-conducting mold material closer.

Bei diesen Auskratzungen haben sich jedoch Mängel ergeben, daß unvermeidbar an den Rändern der ausgekratzten Stelle Ausfransungen der Beschichtung auftreten, die später im Betrieb der so behandelten Form der Ursprung für das Abplatzen mehr oder weniger großer Stücke der Beschichtung sind.With these scrapings, however, there have been defects that inevitably fraying of the coating occurs at the edges of the scraped-out area, which later in operation in the form treated in this way are the origin for the chipping of more or less large pieces of the coating.

Bei einer aus der DE-C-1 155 833 bekannten Gießform wird die erstrebte gleichschnelle Abkühlung der kräftigen und der dünnen Plattengitterteile dadurch erreicht, daß jede der beiden einstückigen Formhälften ein Mittelteil mit den Gitterrippen und -stegen entsprechenden Vertiefungen sowie ein Randteil mit einer dem Piattenrand entsprechenden größeren Auskehlung besitzt, wobei zwar die Randteile mit den zugehörigen Formträgerhälften in direkter wärmeleitender Verbindung stehen, die Mittelteile jedoch durch einen Luftspalt gegen die Formträger abgesetzt sind. Durch die so gebildeten isolierenden Lufttaschen wird der Wärmeabfluß aus dem dünnen Gitterwerk verzögert.In a casting mold known from DE-C-1 155 833, the desired rapid cooling of the strong and the thin plate grid parts is achieved in that each of the two one-piece mold halves has a central part with depressions corresponding to the grid ribs and webs and an edge part with a plate edge has a corresponding larger groove, the edge parts being in direct heat-conducting connection with the associated mold carrier halves, but the central parts being offset against the mold carrier by an air gap. The heat flow out of the thin lattice is delayed by the insulating air pockets formed in this way.

Der Erfindung liegt die Aufgabe zugrunde, eine Gießform für Gitterplatten anzugeben, die es gestattet, unter Vermeidung lästiger Nachbehandlungen nach jedem Gießvorgang oder anderer mit Zeitverlusten einhergehenden Maßnahmen die unterschiedlichen Abkühlungsgeschwindigkeiten des Rahmens und des Gitterwerkes so einander anzugleichen, daß ein schnellerer Arbeitsfluß möglich ist.The invention has for its object to provide a mold for grid plates, which makes it possible to adjust the different cooling speeds of the frame and the latticework so that a faster workflow is possible after avoiding annoying post-treatment after each casting process or other measures associated with wasted time.

Die Aufgabe wird erfindungsgemäß mit den im kennzeichnenden Teil des Anspruchs 1 angegebenen Merkmalen gelöst.The object is achieved with the features specified in the characterizing part of claim 1.

Wesentlicher Erfindungsgedanke ist somit die beschleunigte Abfuhr des unverhältnismäßig großen Wärmeinhalts der Bleischmelze in den mit den Fahnen und Plattenrahmen korrespondierenden Formkavitäten, die nicht durch eine Vergrößerung der Formenhohlfläche möglich ist, mit Hilfe eines besser wärmeleitenden und in dieser Eigenschaft noch durch ein Kühlmittel aktiv unterstützten Formenmaterials. Dementsprechend wird das - meist aus Grauguß oder bestimmten Stahllegierungen bestehende - Grundmaterial der Gießform an den besagten Materialanhäufungsstellen des Gießlings erfindungsgemäß durch einen Werkstoff mit höherer spezifischer Wärmeleitfähigkeit ersetzt. Als ein für den erfindungsgemäßen Zweck geeigneter Werkstoff bietet sich z. B. Kupfer an, dessen Wärmeleitzahl 384 W/m - K beträgt gegenüber 58 W/m - K für Grauguß. Es ergibt sich daraus eine um den Faktor 6,6 verbesserte Wärmeabführung. Etwas ungünstiger verhält sich Aluminium mit einer Wärmeleitzahl von 204 W/m - K, die sich für Aluminiumlegierungen noch weiter bis auf etwa 172 W/m - K vermindert.An essential idea of the invention is thus the accelerated dissipation of the disproportionately high heat content of the lead melt in the mold cavities corresponding to the flags and plate frames, which is not possible by enlarging the mold cavity surface, with the aid of a mold material that is more thermally conductive and actively supported in this property by a coolant. Accordingly, the base material of the casting mold, which usually consists of gray cast iron or certain steel alloys, is replaced according to the invention at the material accumulation points of the casting by a material with a higher specific thermal conductivity. As a suitable material for the purpose of the invention, z. B. copper, whose thermal conductivity is 384 W / m - K compared to 58 W / m - K for gray cast iron. This results in an improved heat dissipation by a factor of 6.6. Aluminum behaves somewhat less favorably with a thermal conductivity of 204 W / m - K, which is further reduced for aluminum alloys down to about 172 W / m - K.

Mit Materialien dieser Wärmeleitfähigkeit läßt sich im Zusammenwirken mit der konstruktiven Ausbildung der einzusetzenden « Wärmeleitbrücken sowie durch Kühlung durch, von einem Kühlmedium durchflossenen, möglichst nahe daran angeordneten Kühlkanälen genau die Wärmeableitung erreichen, die für einen optimalen Gießvorgang erforderlich ist. Bei einem solchen Gießvorgang kommt es nämlich im Hinblick auf eine möglichst kurze Taktzeit in erster Linie darauf an, daß alle Teile des Gitters möglichst gleichzeitig die Temperatur unterschreiten, die insbesondere zur Verhinderung von Wärmerissen und ähnlichen Fehlern eingehalten werden muß, bevor die Entformung beginnen kann.With materials of this thermal conductivity, in conjunction with the constructive design of the thermal bridges to be used and by cooling through cooling channels through which a cooling medium is arranged and arranged as close as possible, the heat dissipation required for an optimal casting process can be achieved exactly. With such a casting process, the most important thing with regard to the shortest possible cycle time is that all parts of the grid fall below the temperature at the same time as possible, which must be maintained in particular to prevent heat cracks and similar defects before the demolding can begin.

Eine besonders vorteilhafte Ausführung einer Gittergießform gemäß der Erfindung liegt vor, wenn die Wärmeleitfähigkeit des besser wärmeleitenden Werkstoffes zu der Wärmeleitfähigkeit des Formengrundmaterials etwa im gleichen Verhältnis wie das flächenbezogene Bleivolumen an den Plattenverdickungen zu dem flächenbezogenen Bleivolumen im Bereich des eigentlichen Gitters steht.A particularly advantageous embodiment of a lattice mold according to the invention is if the thermal conductivity of the better heat-conducting material to the thermal conductivity of the mold base material is approximately in the same ratio as the area-related lead volume at the plate thickening to the area-related lead volume in the area of the actual grid.

Alternativ hierzu läßt sich der erfindungsgemäße Zweck auch durch eine gezielte Querschnittsgestaltung der Formenteile aus dem besser wärmeleitenden Werkstoff erfüllen, indem man nach Maßgabe von dessen spezifischer Wärmeleitfähigkeit den Querschnitt so auslegt, daß der erzielbare Wärmeabfluß um das Verhältnis des flächenbezogenen Bleivolumens an den Plattenverdickungen zu den flächenbezogenen Bleivolumen im eigentlichen Gitterbereich erhöht ist.As an alternative to this, the purpose according to the invention can also be achieved by a targeted cross-sectional design of the molded parts made of the better heat-conducting material, by designing the cross-section in accordance with its specific thermal conductivity so that the achievable heat outflow by the ratio of the area-related lead volume at the plate thickenings to the area-related Lead volume in the actual grid area is increased.

In jedem Fall kommt die Wirksamkeit der Wärmeleitbrücken erst dann voll zur Geltung, wenn sie an ihrer Rückseite möglichst nahe mit einem von einem Kühlmedium durchflossenen Kanal thermisch verbunden sind, denn der in der Dimension des Wärmeleitwertes enthaltene Temperaturfaktor gelangt zwangsläufig zu um so größerem Einfluß, je größer der Temperaturunterschied ist. Als Kühlmedium dient im allgemeinen Wasser oder Öl.In any case, the effectiveness of the thermal bridges only comes into its own when it is thermally connected at the rear as close as possible to a channel through which a cooling medium flows, because the temperature factor contained in the dimension of the thermal conductivity inevitably has an even greater influence, depending on the temperature difference is greater. Water or oil is generally used as the cooling medium.

Die Einlegeteile wird man praktischerweise vor der Gravur der Form an den erforderlichen Stellen einsetzen. Es werden im Bereich der Fahnen rotationssymmetrische Teile sein können, da diese sich am leichtesten herstellen und einpassen lassen. Im Bereich der Rahmen werden es Leisten sein müssen, die ggf. in einem nicht allzu großen Abstand voneinander Stiele haben, die ihrerseits zu den Kühlkanälen führen.The inserts will be conveniently inserted in the required places before the mold is engraved. There may be rotationally symmetrical parts in the area of the flags, since these are the easiest to manufacture and fit. In the area of the frames, there will have to be strips that may have stems that are not too far apart, which in turn lead to the cooling channels.

Die Dimensionierung der Wärmeleitbrücken ist von Gitter zu Gitter individuell vorzunehmen, um das Ziel der gleichzeitigen Abkühlung bei unterschiedlichen Gitterkonstruktionen zu erreichen.The dimensioning of the thermal bridges has to be carried out individually from grid to grid in order to achieve the goal of simultaneous cooling with different grid constructions.

Zur Verdeutlichung der Erfindung zeigt die Figur eine Gittergießform 1, bei der in Bereichen größerer Anhäufungen von schmelzflüssigem Blei das Grundmaterial der Form durch ein Einlegeteil 2 höherer Wärmeleitfähigkeit mit den Konturen der Fahne 3 und des Rahmens 4 ersetzt ist. Die Pfeile bezeichnen die Einlaufrichtung der Bleischmelze. Weiter im Innern der Gießform. jedoch den besser wärmeleitenden Einlegeteilen eng benachbart, sind die Kühlwasserkanäle 5 angeordnet.To illustrate the invention, the figure shows a lattice casting mold 1, in which the base material of the mold is replaced by an insert 2 of higher thermal conductivity with the contours of the flag 3 and the frame 4 in areas of larger accumulations of molten lead. The arrows indicate the direction of the molten lead. Further inside the mold. however, the better heat-conducting inserts are closely adjacent, the cooling water channels 5 are arranged.

Parallel oder senkrecht zu ihnen sind in die Formenoberfläche, zugleich integriert in deren Gravur, Entlüftungen 6 (sogenannte Aircells oder Ventbars) eingelassen. Diese stellen Einlegeteile ähnlich den erfindungsgemäßen Wärmeleitbrücken dar, bestehen jedoch aus dem gleichen Grundmaterial wie die Form und gestatten der vor dem einströmenden Blei verdichteten Luft in den Stegrillen ein Entweichen über die kapillaren Fugen 7 in den Entlüftungskanal 8.In parallel or perpendicular to them, vents 6 (so-called air cells or ventbars) are embedded in the mold surface, at the same time integrated in their engraving. These are inserts similar to the thermal bridges according to the invention, but consist of the same basic material as the shape and allow the air compressed in front of the inflowing lead in the web grooves to escape via the capillary joints 7 into the ventilation channel 8.

Claims (3)

1. Casting mould, comprising two mould halves, for the production of grid plates for lead accumulators, in particular starter grids, which, in addition to thin grid ribs and webs, contain thicker frames and plate lugs, characterized in that the casting mould (1) is, in the region of the areas of accumulated material in the grid, such as frames (4) and lugs (3), formed by parts (2) of a material which has a higher specific thermal conductivity than the base material of the mould, and that at least one channel (5) carrying a coolant flow is provided as closely as possible to the casting mould parts of higher thermal conductivity.
2. Casting mould according to Claim 1, characterized in that the ratio of the thermal conductivity of the material of higher thermal conductivity to the thermal conductivity of the base material of the mould is approximately the same as the ratio of the lead volume per unit area at the plate thickenings (3, 4) to the lead volume per unit area in the region of the actual grid (2).
3. Casting mould according to Claim 1, characterized in that the mould parts of the material of higher thermal conductivity are, allowing for its specific thermal conductivity, designed with respect to their cross-section in such a way that the achievable heat removal is increased by the ratio of the lead volume per unit area at the plate thickenings (3, 4) to the lead volume per unit area in the actual grid region (2).
EP85111263A 1984-09-13 1985-09-06 Mould for the production of plate grids for lead accumulators Expired EP0174613B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT85111263T ATE33461T1 (en) 1984-09-13 1985-09-06 CASTING MOLD FOR THE PRODUCTION OF GRID PLATES FOR LEAD ACCUMULATORS.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19843433583 DE3433583A1 (en) 1984-09-13 1984-09-13 MOLD FOR THE PRODUCTION OF GRID PLATES FOR LEAD ACCUMULATORS
DE3433583 1984-09-13

Publications (2)

Publication Number Publication Date
EP0174613A1 EP0174613A1 (en) 1986-03-19
EP0174613B1 true EP0174613B1 (en) 1988-04-13

Family

ID=6245276

Family Applications (1)

Application Number Title Priority Date Filing Date
EP85111263A Expired EP0174613B1 (en) 1984-09-13 1985-09-06 Mould for the production of plate grids for lead accumulators

Country Status (8)

Country Link
US (1) US4733849A (en)
EP (1) EP0174613B1 (en)
AT (1) ATE33461T1 (en)
CA (1) CA1234475A (en)
DE (2) DE3433583A1 (en)
ES (1) ES288714Y (en)
FI (1) FI80839C (en)
NO (1) NO164886C (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0530503B1 (en) * 1991-08-02 1997-11-26 Canon Kabushiki Kaisha Injection-molding metal mold and use thereof for injection molding a body
DE4224078A1 (en) * 1992-07-21 1994-01-27 Hagen Batterie Ag Lattice mold for casting accumulator lead grids and process for their production
DE19819007A1 (en) * 1998-04-28 1999-11-04 Jonathan Aerospace Materials E Casting apparatus for three-dimensionally structured articles

Family Cites Families (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1652445A (en) * 1925-08-22 1927-12-13 Harry S Lee Heat control in castings
GB330018A (en) * 1929-03-11 1930-06-05 Ig Farbenindustrie Ag Improvements in moulds for the manufacture of castings from metals or alloys
US1994634A (en) * 1934-04-19 1935-03-19 New Jersey Zinc Co Method of casting stereotype plates
US2194092A (en) * 1937-12-23 1940-03-19 Solar Corp Mold for battery grid plates
US2807065A (en) * 1956-10-12 1957-09-24 Anaconda Co Mold insert block
DE1155833B (en) * 1957-11-27 1963-10-17 Winkel Machine Company Inc Mold made of two halves for grids of plates for accumulators
GB1402099A (en) * 1971-12-15 1975-08-06 Lucas Batteries Ltd Battery plate grids for lead-acid batteries
JPS5666372A (en) * 1979-10-30 1981-06-04 Shin Kobe Electric Mach Co Ltd Die for lead alloy casting
JPS56114552A (en) * 1980-02-13 1981-09-09 Hitachi Metals Ltd Metal mold for casting

Also Published As

Publication number Publication date
DE3562117D1 (en) 1988-05-19
NO853579L (en) 1986-03-14
FI853471A0 (en) 1985-09-11
CA1234475A (en) 1988-03-29
FI80839C (en) 1990-08-10
US4733849A (en) 1988-03-29
FI853471L (en) 1986-03-14
NO164886B (en) 1990-08-20
ES288714Y (en) 1986-10-01
EP0174613A1 (en) 1986-03-19
ATE33461T1 (en) 1988-04-15
NO164886C (en) 1990-11-28
ES288714U (en) 1986-01-16
DE3433583A1 (en) 1986-03-20
FI80839B (en) 1990-04-30

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