EP0136638A2 - Toggle-type fastener - Google Patents

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Publication number
EP0136638A2
EP0136638A2 EP84111323A EP84111323A EP0136638A2 EP 0136638 A2 EP0136638 A2 EP 0136638A2 EP 84111323 A EP84111323 A EP 84111323A EP 84111323 A EP84111323 A EP 84111323A EP 0136638 A2 EP0136638 A2 EP 0136638A2
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EP
European Patent Office
Prior art keywords
working position
locking members
tension lock
closure
actuating member
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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.)
Granted
Application number
EP84111323A
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German (de)
French (fr)
Other versions
EP0136638B1 (en
EP0136638A3 (en
Inventor
Bruno Hengartner
Edi Kriemler
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Stilo AG
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Stilo AG
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Publication date
Application filed by Stilo AG filed Critical Stilo AG
Priority to AT84111323T priority Critical patent/ATE39273T1/en
Publication of EP0136638A2 publication Critical patent/EP0136638A2/en
Publication of EP0136638A3 publication Critical patent/EP0136638A3/en
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Publication of EP0136638B1 publication Critical patent/EP0136638B1/en
Expired legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C9/00Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
    • E05C9/04Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with two sliding bars moved in opposite directions when fastening or unfastening
    • E05C9/043Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with two sliding bars moved in opposite directions when fastening or unfastening with crank pins and connecting rods

Definitions

  • the present invention relates to a turnbuckle, in which a rotary movement of an actuating member with respect to an axis of rotation is converted into a linear displacement component of oppositely moving locking members, the locking members being pivotally mounted on the actuating member and lying against one another in the working position.
  • a window lock is known in which an actuating member which is rotatable with respect to an axis of rotation is provided, on which oppositely moving locking members are pivotally mounted, which are linearly displaced in one component when the actuating member rotates.
  • the working position of the lock is given by driving the locking members moving in opposite directions as far apart as possible.
  • the locking members pivotably mounted on the actuating member in opposite directions, bear against a coaxial bolt on the actuating member, namely along obliquely angled surfaces with respect to the in this position on the Interlocking elements retroactive stress.
  • the swivel bearings of the locking members on the actuating member thus remain stressed by the retroactive stress and the closure is in an unstable equilibrium state in the working position, the reaction moments are opening.
  • a window lock is also shown with a rotary actuator, on which locking elements moving in opposite directions are pivoted.
  • the swivel bearings between the locking members and the actuating member are aligned in the direction of the retroactive stress and take them up entirely; the closure in the working position is also in an unstable state with regard to the reaction moments.
  • a closure has now become known in which a rotary movement of an actuating member with respect to an axis of rotation is converted into a linear displacement component of oppositely moving locking members, the locking members being pivoted on the actuating member and abutting one another in the working position.
  • the pivoting parts of the locking members are shaped so that, in the working position of the closure, the locking members abut each other on an inclined plane with respect to the direction of the retroactive stress.
  • the aim of the present invention is now to further develop a tension lock of the type mentioned at the outset, that in the working position the pivot bearings between the locking members and the actuating member are relieved of the reaction stress.
  • This is achieved in that the locking members are shaped on their swivel-mounted part in such a way that in the working position of the lock, they mutually absorb the stress of the locking members in the direction of the linear displacement component and relieve the pivot bearings, at least almost perpendicular to the direction of stress.
  • the swivel bearings are virtually completely relieved.
  • an actuating handle is provided on the actuating member, which projects at least partially radially, a closure is created that takes up little space, in particular for its actuation, since the actuating handle can practically be pivoted in the plane of the actuating member.
  • a rod-shaped clamping lever 1 is permanently connected to a plate-shaped connecting part 3, on which bushes or bolts of two pivot bearings 5, respectively. 7 are fixed. On these cans resp. Bolts ride corresponding bolts or bushings each of a tie rod 9 or. ll.
  • the anchor ends mounted in this way are hook-shaped and each have support surfaces 13 or perpendicularly oriented with respect to the respective pulling direction S. 15 on.
  • a spring element 19 can be operatively connected to the anchors 9 and 11, as shown schematically in the figure, such that this spring element 19 is supported on the one hand on the anchors 9 and 11 and on the other hand on the parts 21 to be clamped with the closure, with which the maximum torque to be overcome can be determined by the characteristic of the compression springs 19.
  • the anchors are mounted to relieve the bearing in such a way that in the closed position, outer hook surfaces 13a, 15a abut one another.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Clamps And Clips (AREA)
  • Devices For Conveying Motion By Means Of Endless Flexible Members (AREA)

Abstract

Um beispielsweise Pultplatten in der Plattenebene gegeneinander zu verspannen, wird ein Spannverschluss vorgeschlagen mit zwei Zugankern (11), die an Zapfen (7) an einer drehbaren Lagerplatte in der Spannbewegungsebene gelagert sind. Mittels eines Spannhebels an der Lagerplatte (3) werden die relativ zueinander exzentrisch angeordneten Lagerzapfen (7) relativ zueinander geschwenkt und die Anker zusammengezogen resp. auseinander bewegt. Die Anker (9,11) sind so ausgebildet, dass sie sich in Arbeitsstellung des Verschlusses entlang eines Flächenabschnittes hintergreifend berühren, der senkrecht zur Reaktionsbeanspruchung (S) der Anker (9, 11) liegt. Im weiteren sind in Arbeitsstellung des Verschlusses die Lagerzapfen (7) so geschwenkt, dass die Reaktionskräfte auf die Anker (9, 11) ein den Verschluss in Arbeitsstellung treibendes Moment ausüben. Der so gebildete Spannverschluss zeichnet sich durch extrem kleine Bauhöhe, auch unter Berücksichtigung des freizuhaltenden Bedienungsraumes, sowie durch eine hohe Stabilität in Arbeitsstellung und dort eine optimale Entlastung der Lagerzapfen aus.

Figure imgaf001
In order, for example, to brace desk panels against each other in the panel plane, a tension lock is proposed with two tie rods (11) which are mounted on pins (7) on a rotatable bearing plate in the plane of the clamping movement. By means of a clamping lever on the bearing plate (3), the bearing pins (7), which are arranged eccentrically relative to one another, are pivoted relative to one another and the anchors are pulled together or. moved apart. The anchors (9, 11) are designed such that, in the working position of the closure, they touch behind one another along a surface section that is perpendicular to the reaction stress (S) of the anchors (9, 11). Furthermore, in the working position of the closure, the bearing pins (7) are pivoted such that the reaction forces on the armatures (9, 11) exert a moment driving the closure in the working position. The tension lock formed in this way is characterized by an extremely small overall height, also taking into account the operating space to be kept clear, as well as by a high stability in the working position and an optimal relief of the bearing journal.
Figure imgaf001

Description

Die vorliegende Erfindung betrifft einen Spannverschluss, bei dem eine Drehbewegung eines Betätigungsorganes bezüglich einer Drehachse in eine lineare Verschiebungskomponente gegensinnig bewegter Verriegelungsorgane umgesetzt wird, wobei die Verriegelungsorgane am Betätigungsorgan schwenkgelagert sind und in Arbeitsstellung aneinander liegen.The present invention relates to a turnbuckle, in which a rotary movement of an actuating member with respect to an axis of rotation is converted into a linear displacement component of oppositely moving locking members, the locking members being pivotally mounted on the actuating member and lying against one another in the working position.

Aus der DE-PS 25 296 ist ein Fensterverschluss bekannt, bei dem ein bezüglich einer Drehachse drehbewegliches Betätigungsorgan vorgesehen ist, an welchem gegensinnig bewegte Verriegelungsorgane schwenkbar gelagert sind, welche bei Drehbewegung des Betätigungsorganes in einer Komponente linear verschoben werden. Gemäss der dieser Technik zugrunde liegenden Aufgabe für Fensterverschlüsse, ist die Arbeitsstellung des Verschlusses durch weitmöglichstes Auseinandertreiben der gegensinnig bewegten Verriegelungsorgane gegeben. In dieser Stellung liegen die am Betätigungsorgan schwenkbeweglich gelagerten, gegensinnig bewegten Verriegelungsorgane an einem koaxialen Bolzen am Betätigungsorgan an und zwar entlang schiefwinkligen Flächen bezüglich der in dieser Stellung auf die Verriegelungsorgane rückwirkenden Beanspruchung. Die Schwenklager der Verriegelungsorgane am Betätigungsorgan bleiben somit durch die rückwirkende Beanspruchung beansprucht und der Verschluss ist in Arbeitsstellung in einem labilen Gleichgewichtszustand, die Reaktionsmomente sind öffnend.From DE-PS 25 296 a window lock is known in which an actuating member which is rotatable with respect to an axis of rotation is provided, on which oppositely moving locking members are pivotally mounted, which are linearly displaced in one component when the actuating member rotates. According to the task for window locks on which this technology is based, the working position of the lock is given by driving the locking members moving in opposite directions as far apart as possible. In this position, the locking members pivotably mounted on the actuating member, in opposite directions, bear against a coaxial bolt on the actuating member, namely along obliquely angled surfaces with respect to the in this position on the Interlocking elements retroactive stress. The swivel bearings of the locking members on the actuating member thus remain stressed by the retroactive stress and the closure is in an unstable equilibrium state in the working position, the reaction moments are opening.

In der DE-PS 9696 ist ebenfalls ein Fensterverschluss dargestellt mit einem Drehbetätigungsorgan,woran gegensinnig bewegte Verriegelungsorgane schwenkgelagert sind. In Arbeitsstellung dieses Verschlusses sind die Schwenklager zwischen Verriegelungsorganen und Betätigungsorgan in Richtung der rückwirkenden Beanspruchung ausgerichtet, und nehmen diese zur Gänze auf; wobei der Verschluss in Arbeitsstellung ebenfalls, was die Reaktionsmomente anbelangt, in einem labilen Zustand steht.In DE-PS 9696 a window lock is also shown with a rotary actuator, on which locking elements moving in opposite directions are pivoted. In the working position of this closure, the swivel bearings between the locking members and the actuating member are aligned in the direction of the retroactive stress and take them up entirely; the closure in the working position is also in an unstable state with regard to the reaction moments.

Aus der FR-PS 822 260 ist nun ein Verschluss bekannt geworden, bei dem eine Drehbewegung eines Betätigungsorganes bezüglich einer Drehachse in eine lineare Verschiebungskomponente gegensinnig bewegter Verriegelungsorgane umgesetzt wird, wobei die Verriegelungsorgane am Betätigungsorgan schwenkgelagert sind, und in Arbeitsstellung aneinanderliegen. Die schwenkgelagerten Partien der Verriegelungsorgane sind so ausgeformt, dass, in Arbeitsstellung des Verschlusses, die Verriegelungsorgane an einer geneigten Ebene aneinander anliegen, mit Bezug auf die Richtung der rückwirkenden Beanspruchung. Damit stützen sich die Verriegelungsorgane in Arbeitsstellung gegenseitig und nach Massgabe des Neigungswinkels ihrer Kontaktierungsebene mit Bezug auf die Beanspruchungsrichtung teilweise ab.Wegen der Neigung der Verriegelungsorgan-Kontaktflächen und dem Sachverhalt, dass, in Arbeitsstellung, die Schwenklager zwischen Verriegelungsorganen und dem Betätigungsorgan mit der Drehachse des Betätigungsorgans in Beanspruchungsrichtung fluchten, ergibt sich jedoch auch bei diesem Verschluss,nebst der nur teilweisen Entlastung der Schwenklager in Arbeitsstellung,ein den Verschluss mit öffnender Tendenz beanspruchendes Reaktionsmoment.From FR-PS 822 260 a closure has now become known in which a rotary movement of an actuating member with respect to an axis of rotation is converted into a linear displacement component of oppositely moving locking members, the locking members being pivoted on the actuating member and abutting one another in the working position. The pivoting parts of the locking members are shaped so that, in the working position of the closure, the locking members abut each other on an inclined plane with respect to the direction of the retroactive stress. This supports them Due to the inclination of the locking element contact surfaces and the fact that, in the working position, the pivot bearings between the locking elements and the actuating element are aligned with the axis of rotation of the actuating element in the direction of the stress However, with this closure, in addition to the only partial relief of the pivot bearings in the working position, there is a reaction moment which demands the closure with an opening tendency.

Die vorliegende Erfindung setzt sich nun zum Ziel einen Spannverschluss eingangs genannter Artsoweiterzubilden, dass in Arbeitsstellung die Schwenklager zwischen Verriegelungsorganen und Betätigungsorgan von der Reaktionsbeanspruchung entlastet sind. Dies wird dadurch erreicht, dass die Verriegelungsorgane an ihrer schwenkgelagerten Partie so ausgeformt sind, dass sie in Arbeitsstellung des Verschlusses, gegenseitig die Beanspruchung der Verriegelungsorgane in Richtung der linearen Verschiebungskomponente aufnehmend und die Schwenklager entlastend, mindestens nahezu senkrecht zur Beanspruchungsrichtung aneinanderliegen. Dadurch wird eine praktisch vollständige Entlastung der Schwenklager erreicht. Um nun zusätzlich zu erwirken, dass der Verschluss in Arbeitsstellung in einem stabilen Zustand ist, d.h.Reaktionsmomente auf den Verschluss weiter verschliessend einwirken, wird vorgeschlagen, dass zum Einlegen der Arbeitsstellung ein Verschliessmomentmaximum zu überwinden ist. Dies wird vorzugsweise dadurch erreicht, dass die Schwenklager bezüglich der Drehachse so exzentrisch angeordnet sind, dass eine Beanspruchung der Verriegelungsorgane in Arbeitsstellung und in Richtung der Verschiebungskomponente auf das Betätigungsorgan ein letzteres in Arbeitsstellung haltendes Moment ausübt.The aim of the present invention is now to further develop a tension lock of the type mentioned at the outset, that in the working position the pivot bearings between the locking members and the actuating member are relieved of the reaction stress. This is achieved in that the locking members are shaped on their swivel-mounted part in such a way that in the working position of the lock, they mutually absorb the stress of the locking members in the direction of the linear displacement component and relieve the pivot bearings, at least almost perpendicular to the direction of stress. As a result, the swivel bearings are virtually completely relieved. In order to additionally effect that the closure is in a stable state in the working position, ie, reaction moments on the closure have a further effect, it is proposed that the work be inserted position a maximum torque must be overcome. This is preferably achieved in that the pivot bearings are arranged so eccentrically with respect to the axis of rotation that stress on the locking members in the working position and in the direction of the displacement component exerts a moment holding the latter in the working position.

Wird im weiteren am Betätigungsorgan ein Betätigungsgriff vorgesehen, der mindestens teilweise radial vorsteht, so wird ein Verschluss geschaffen, der nur wenig Raum einnimmt, insbesondere für seine Betätigung,da der Betätigungsgriff praktisch in der Ebene des Betätigungsorgans geschwenkt werden kann.If an actuating handle is provided on the actuating member, which projects at least partially radially, a closure is created that takes up little space, in particular for its actuation, since the actuating handle can practically be pivoted in the plane of the actuating member.

Die Erfindung wird anschliessend beispielsweise anhand einer Figur erläutert.The invention is subsequently explained, for example, using a figure.

Diese zeigt die Aufsicht auf einen erfindungsgemässen Spannverschluss.This shows the top view of a tension lock according to the invention.

Ein stabförmiger Spannhebel 1 ist endständig fest mit einem plattenförmigen Verbindungsteil 3 verbunden, auf welchem Büchsen oder Bolzen zweier Schwenklager 5 resp. 7 fest angeordnet sind. Auf diesen Büchsen resp. Bolzen reiten entsprechende Bolzen oder Büchsen je eines Zugankers 9 resp. ll. Die derart gelagerten Ankerenden sind hakenförmig ausgebildet und weisen je mit Bezug auf die jeweilige Zugrichtung S senkrecht ausgerichtete Stützflächen 13 resp. 15 auf.A rod-shaped clamping lever 1 is permanently connected to a plate-shaped connecting part 3, on which bushes or bolts of two pivot bearings 5, respectively. 7 are fixed. On these cans resp. Bolts ride corresponding bolts or bushings each of a tie rod 9 or. ll. The anchor ends mounted in this way are hook-shaped and each have support surfaces 13 or perpendicularly oriented with respect to the respective pulling direction S. 15 on.

In der ausgezogen eingetragenen Stellung des Spannhebels 1, entsprechend gespanntem Verschlues, im Gegensatz zu den gestrichelt eingetragenen Stellungen der Anker 9 und 11 hintergreifen sich die hakenförmigen Ankerenden, derart, dass die Stützflächen 13 und 15 kraftschlüssig aneinander zu liegen kommen und gegenseitig den Zug in Richtung S aufnehmend, die Lager 5 resp. 7 entlasten. Je nach Anwendung wird der dargestellte Spannverschluss freischwebend montiert, d.h. lediglich über die Anker 11 resp. 9 und die damit zu verspannenden, selber gelagerten Teile, oder der Verbindungsteil 3 kann beispielsweise, wie bei 17 gestrichelt eingetragen, selbst schwenkbar, zentral gelagert sein. Bei Schliessen des Spannvorschlusses durch Schwenken des Spannhebels 1 aus geöffneter Stellung in Richtung F in die ausgezogen dargestellte Schliessstellung, muss beim zur Auflagekommen der beiden hakenförmig umgebogenen Ankerenden ein Momentenmaximum überwunden werden, wonach der Verschluss in die stabile Schliessstellung praktisch selbsttätig, einrastet.In the extended position of the tensioning lever 1, correspondingly tensioned lock, in contrast to the positions of the anchors 9 and 11 shown in dashed lines, the hook-shaped anchor ends engage behind one another in such a way that the support surfaces 13 and 15 come to rest against one another and the train pulls in the direction of one another S picking up the bearings 5 respectively. 7 relieve. Depending on the application, the tension lock shown is mounted so that it floats, i.e. only about the anchor 11 respectively. 9 and the parts to be braced with it, or the connecting part 3, for example, as shown in dashed lines at 17, can itself be pivoted, centrally stored. When the tensioning connection is closed by pivoting the tensioning lever 1 from the open position in the direction F to the closed position shown in the drawing, a maximum torque must be overcome when the two hook-shaped bent ends of the anchor come to rest, after which the lock practically automatically engages in the stable closed position.

Um allenfalls die Ueberwindung des Momentenmaximums zu erleichtern, kann, wie in der Figur schematisch dargestellt, mit den Ankern 9 bzw. 11 je ein Federorgan 19 wirkverbunden sein, derart, dass dieses Federorgan 19 einerseits an den Ankern 9 bzw. 11 abgestützt ist, anderseits an den mit dem Verschluss zu verspannenden Teilen 21,womit das Momentenmaximum, das zu überwinden ist, durch die Charakteristik der Druckfedern 19 bestimmt werden kann.In order to facilitate the overcoming of the maximum torque at most, a spring element 19 can be operatively connected to the anchors 9 and 11, as shown schematically in the figure, such that this spring element 19 is supported on the one hand on the anchors 9 and 11 and on the other hand on the parts 21 to be clamped with the closure, with which the maximum torque to be overcome can be determined by the characteristic of the compression springs 19.

Müssen durch den Verschluss Druckkräfte aufgenommen werden, so werden zur Lagerentlastung die Anker so gelagert, dass in Schliessstellung äussere Hakenflächen 13a, 15a aneinanderliegen.If pressure forces have to be absorbed by the closure, the anchors are mounted to relieve the bearing in such a way that in the closed position, outer hook surfaces 13a, 15a abut one another.

Claims (7)

1. Spannverschluss,bei dem eine Drehbewegung eines Betätigungsorgans bezüglich einer Drehachse in eine lineare Verschiebungskomponente gegensinnig bewegter Verriegelungsorgane umgesetzt wird, wobei die Verriegelungsorgane am Betätigungsorgan schwenkgelagert sind und in Arbeitsstellung aneinanderliegen, dadurch gekennzeichnet, dass die Verriegelungsorgane (9, 11) an ihrer schwenkgelagerten Partie so ausgeformt sind, dass sie in Arbeitsstellung des Verschlusses gegenseitig die Beanspruchung der Verriegelungsorgane in Richtung der linearen Verschiebungskomponente (S) aufnehmend und die Schwenklager (7) entlastend, mindestens nahezu senkrecht zur Beanspruchungsrichtung aneinanderliegen.1. Tension lock, in which a rotary movement of an actuating member with respect to an axis of rotation is converted into a linear displacement component of oppositely moving locking members, the locking members being pivotally mounted on the actuating member and abutting one another in the working position, characterized in that the locking members (9, 11) on their pivoted part are designed so that, when the lock is in the working position, they mutually absorb the stresses of the locking members in the direction of the linear displacement component (S) and relieve the pivot bearings (7), at least almost perpendicular to the stress direction. 2. Spannverschluss nach Anspruch 1, bei dem die Verriegelungsorgane in der Arbeitsstellung unter von den Schwenklagern (7) weggerichtetem Reaktionszug stehen, dadurch gekennzeichnet, dass die schwenkgelagerten Partien hakenförmig ausgebildet sind und sich in Arbeitsstellung hintergreifen.2. Tension lock according to claim 1, in which the locking members are in the working position under from the pivot bearings (7) facing reaction train, characterized in that the pivoted parts are hook-shaped and reach behind in the working position. 3. Spannverschluss nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass er unter Ueberwindung eines Verschliessmoment-Maximums von Ruhe- in Arbeitsstellung gebracht wird.3. Tension lock according to claim 1 or 2, characterized in that it is brought from rest to working position while overcoming a maximum closing torque. 4. Spannverschluss nach Anspruch 3, dadurch gekennzeichnet, dass die Schwenklager (5,7) bezüglich der Drehachse (17) so exzentrisch angeordnet sind, dass eine Beanspruchung der Verriegelungsorgane (9, 11) in Arbeitsstellung und in Richtung der Verschiebungskomponente, auf das Betätigungsorgan (3) ein letzteres in Arbeitsstellung haltendes Moment ausübt.4. Tension lock according to claim 3, characterized in that the pivot bearings (5, 7) are arranged eccentrically with respect to the axis of rotation (17) such that stress on the locking members (9, 11) in the working position and in the direction of the displacement component, on the actuating member (3) exerts a second moment holding the working position. 5. Spannverschluss nach Anspruch 3 oder 4, dadurch gekennzeichnet, dass die Schwenklager (5,7) bezüglich der Achse (17) axialsymmetrisch angeordnet sind.5. Tension lock according to claim 3 or 4, characterized in that the pivot bearings (5,7) are arranged axially symmetrically with respect to the axis (17). 6. Spannverschluss nach einem der Ansprüche 1 bis 5, dadurch gekennzeichnet, dass am Betätigungsorgan (3) ein Betätigungsgriff (1) mindestens vornehmlich radial vorsteht.6. Tension lock according to one of claims 1 to 5, characterized in that an actuating handle (1) at least predominantly projects radially on the actuating member (3). 7. Spannverschluss nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, dass die Verriegelungsorgane (9, 11) gegen die Kraft einer Federanordnung (19) in Arbeitsstellung bringbar sind.7. Tension lock according to one of claims 1 to 6, characterized in that the locking members (9, 11) against the force of a spring arrangement (19) can be brought into the working position.
EP84111323A 1983-09-30 1984-09-22 Toggle-type fastener Expired EP0136638B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT84111323T ATE39273T1 (en) 1983-09-30 1984-09-22 TENSION CLOSURE.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH5327/83 1983-09-30
CH532783 1983-09-30

Publications (3)

Publication Number Publication Date
EP0136638A2 true EP0136638A2 (en) 1985-04-10
EP0136638A3 EP0136638A3 (en) 1985-11-13
EP0136638B1 EP0136638B1 (en) 1988-12-14

Family

ID=4291731

Family Applications (1)

Application Number Title Priority Date Filing Date
EP84111323A Expired EP0136638B1 (en) 1983-09-30 1984-09-22 Toggle-type fastener

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EP (1) EP0136638B1 (en)
AT (1) ATE39273T1 (en)
DE (1) DE3475634D1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0335811A1 (en) * 1988-03-31 1989-10-04 S.A. DES ETABLISSEMENTS STAUBLI (France) Drawing system for driving the heald frames of negative dolbys

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AT107970B (en) * 1925-07-31 1927-11-25 Alexander Wolf Window drive rod lock.
FR822260A (en) * 1937-05-26 1937-12-24 Fond Et Ateliers Du Laminoir Cremone refinements
DE702859C (en) * 1938-03-08 1941-02-18 Gustav Fr Bayer Turnbuckle, especially for anti-skid chains
CH298447A (en) * 1952-01-03 1954-05-15 Grundmann Geb Basque clasp for windows.
US2793892A (en) * 1955-04-04 1957-05-28 Cummings Landau Laundry Machin Latch mechanisms

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0335811A1 (en) * 1988-03-31 1989-10-04 S.A. DES ETABLISSEMENTS STAUBLI (France) Drawing system for driving the heald frames of negative dolbys
FR2629481A1 (en) * 1988-03-31 1989-10-06 Staubli Sa Ets DRAWING SYSTEM FOR CONTROLLING THE HANDLE FRAMES OF NEGATIVE ARMOR MECHANICS
US4957142A (en) * 1988-03-31 1990-09-18 S.A. Des Etablissements Staubli (France) Tension lever for negative dobby

Also Published As

Publication number Publication date
ATE39273T1 (en) 1988-12-15
DE3475634D1 (en) 1989-01-19
EP0136638B1 (en) 1988-12-14
EP0136638A3 (en) 1985-11-13

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