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EP 0 769 449 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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16.01.2002 Bulletin 2002/03 |
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Date of filing: 15.10.1996 |
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International Patent Classification (IPC)7: B63H 25/08 |
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A tiller connection
Verbindung für Steuerausleger
Articulation pour barre de bateau
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Designated Contracting States: |
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DE FR GB |
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Priority: |
20.10.1995 GB 9521557 07.02.1996 GB 9602501
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Date of publication of application: |
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23.04.1997 Bulletin 1997/17 |
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Proprietor: RWO (Marine Equipment) Ltd. |
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Benfleet Essex SS7 4QW (GB) |
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Inventors: |
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- Owen, John Robert
Leigh-on-Sea,
Essex SS9 2NA (GB)
- Atkins, Stephen Roy
Pitsea,
Basildon,
Essex SS13 2AS (GB)
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Representative: Frankland, Nigel Howard |
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FORRESTER & BOEHMERT Pettenkoferstrasse 20-22 80336 München 80336 München (DE) |
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References cited: :
WO-A-91/17082 GB-A- 2 085 068 US-A- 4 553 496
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DE-A- 2 946 158 US-A- 4 228 756 US-A- 4 802 430
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] THE PRESENT INVENTION relates to a tiller connection and more particulary relates to a tiller connection
for use in connecting an extension arm to the main part of a tiller in a yacht or
dinghy.
[0002] A tiller in a yacht or dinghy is connected to the rudder used to steer the vessel.
It has been proposed previously to provide an extension arm which is connected to
the tiller, permitting the yachtsman to control the yacht or dinghy from a position
which is, relatively, a long way from the tiller.
[0003] Various tiller connections have been proposed previously to connect an extension
arm to a tiller but all have suffered from one or more disadvantages.
[0004] Some of the prior proposed tiller connections have comprised universal joints. See,
for example, US-A-4,228,756 which shows an arrangement in which one component defines
a recess, which recess is a substantially spherical ball. Here a difficulty has arisen
in that if the tiller extension arm is released, it can drop to a position where subsequently
the yachtsman cannot regain access to the tiller extension. A further problem has
arisen in that the materials utilised for the connection have been inappropriate and
either have worn out relatively rapidly, or have, when partially worn, exhibited very
high friction, or have resulted in a loose or "sloppy" connection.
[0005] There is a need for a tiller connection which provides a substantially universal
action, to enable the position of the tiller extension to be readily adjusted relative
to the position of the tiller, but which provides a secure connection between the
tiller extension and the tiller. Furthermore there is a requirement for a tiller connection
where, if the tiller extension is released, it does not fall to a position in which
it is inaccessible. The present invention seeks to provide a tiller connection of
this type.
[0006] According to this invention there is provided a tiller connection to connect a tiller
extension arm to a tiller, the tiller connection comprising a support component to
be connected to the tiller, a ball with means to connect the ball to the support component
and means to engage the ball and to be connected to the tiller extension arm, wherein
the means to engage the ball comprise a claw having two components to engage the ball
to exert a substantial frictional force on the ball, the support component incorporating
a ring element located above a base of the support component, the ring element being
co-axial with the connection between the ball and the support component and defining
a support surface adapted to engage the claw, or the tiller arm to prevent the tiller
arm from moving beneath a predetermined limiting position, the ball and the claw forming
components being made of a self-lubricating plastics material.
[0007] Conveniently the two claw-forming components are secured together by a bolt.
[0008] In one embodiment the ring element lies in a single plane. In another embodiment
the ring element has a portion in a plane and a further region off-set from the plane.
[0009] Conveniently the ring element is carried by the base of the support component, the
base of support component defining a hollow spigot adapted to receive a pin carried
by the ball to connect the ball to the support component.
[0010] In one embodiment the ball has a pin to be received in the hollow spigot, the pin
carrying retractable protruding elements that engage the spigot to retain the ball
whilst permitting rotation of the ball, and which can be retracted to permit the ball
to be separated from the support component.
[0011] Preferably the plastic materials utilised to form the ball and the claw contains
between 10 and 20% PTFE, conveniently substantially 15% PTFE.
[0012] Preferably the plastics material utilised to form the ball and the claw is fibre
reinforced, advantageously is carbon fibre reinforced. Conveniently the proportion
of carbon fibre in the plastic comprises between 20 and 40% by weight, preferable
substantially 30% by weight.
[0013] A major component of the plastics used to form the ball and the claw may comprise
nylon 66.
[0014] The claw may comprise two substantially identical components which are interconnected
to define the claw.
[0015] In order that the invention may be more readily understood, and so that further features
thereof may be appreciated, the invention will now be described, by way of example,
with reference to the accompanying drawings in which
FIGURE 1 is a perspective partially exploded view of a tiller connection in accordance
with the invention,
FIGURE 2 is a sectional view illustrating the support component of the connection,
FIGURE 3 is a perspective view illustrating the ball and connecting pin of the connection,
FIGURE 4 is a perspective view illustrating the claw of the connection,
FIGURE 5 is a perspective partially exploded view, corresponding to Figure 1, showing
a modified embodiment of the invention, and
FIGURE 6 is a sectional view illustrating the support component of Figure 5.
[0016] Referring initially to Figure 1 of the accompanying drawings a tiller connection
in accordance with invention comprises three elements namely a support component 1,
a ball 2 and a claw 3.
[0017] As can be seen in Figure 1 and in Figure 2 the support component 1 comprises a substantially
planar base 4 provided with two screw holes to enable the base to be secured to a
tiller. Depending beneath the base is a hollow tubular spigot 5, which incorporates
a metal tube 6.
[0018] Upstanding at either end of the base are two arcuate walls 7, and extending from
opposed sides of the base are upwardly inclined support arms 8. The arcuate walls
and the support arms together support an annulus or ring element 9.
[0019] The upper part of the annulus 9 is provided with a groove 10 which receives a rubber
ring 11. The rubber ring defines an upper surface which performs a support function
as will become clear hereinafter. The ring 11 is co-axial with the hollow spigot 5.
[0020] The main part of the support component 1 may be made of any appropriate plastic material.
[0021] The ball 2, as can be seen in Figure 1 and in Figure 3, comprises a substantially
spherical outer surface 20, and has depending from it a cylindrical spigot 21. Projecting
axially from the spigot 21 is a stainless steel pin 22. The pin 22 is hollow, and
has two ball bearings, only one of which, 23, is visible in figure 3, projecting from
the lower part of the pin 22, through apertures formed in the pin at diametrically
opposed positions.
[0022] The upper part of the ball 2 is hollowed out, and the upper most part of the ball
2 is open 24. Within the upper open part 24 of the ball 2 is an actuating button 25.
The actuating button 25 can be depressed, causing an element (not shown) which extends
down the hollow pin 22 to move axially. The element within the pin has cam faces that
act on the ball bearings. As the element within the hollow pin moves axially as a
consequence of movement of the actuating button, the two opposed ball bearings 23
may retract within the pin 22.
[0023] It is to appreciated that the pin 22 is dimensioned to be snugly received within
the hollow interior of the spigot 5 of the support component 1. With the button 25
depressed, the balls 23 are retracted within the pin 22 enabling the pin to be inserted
into the hollow spigot 5. When the button 25 is released, the balls 23 are moved outwardly,
thus preventing the ball 2 from being separated from the support component 1.
[0024] With the button 25 depressed the ball may connected to, or released from, the support
component 1. When connected to the support component 1 the ball 2 may freely rotate,
the ball bearings 23 projecting from the pin 22 at a position beneath the lower end
of the spigots, thus preventing the ball 2 from moving upwardly.
[0025] The claw 3, as can be seen from Figures 1 and 4 comprises two mirror-image claw-forming
components 30, 31 which are secured together by means of a bolt 32 which passes through
co-aligned apertures formed in the two claw-forming components. The claw-forming components
30, 31 define two arcuate arms which have opposed part spherical inner faces 34, which,
as can be seen from Figure 1, engage the outer surface 20 of the ball 2. The arrangement
is such that the claw exerts a substantial frictional force against the ball but,
nevertheless, the claw can be moved relative to the ball if sufficient force is applied.
[0026] The claw 30 is rotationally mounted at end of a tiller extension arm 40, as can be
seen in Figure 4.
[0027] It is to be appreciated that when the claw 3 has been connected to the ball 2, as
shown in figure 1, the combination of the claw 3 and the ball 2 may be connected to
the support component 1 by introducing the pin 22 into the hollow interior of the
spigot 5. The ball may then freely rotate relative to the support component 1. The
angle of inclination of the tiller extension arm 40 may be readily adjusted simply
by moving the free end of the tiller extension arm up and down. The claw will move
frictionally relative to the ball to permit this adjustment.
[0028] Should the tiller arm be released the weight of the tiller arm may overcome the frictional
force between the claw and the ball, and the tiller arm may thus tend to fall downwardly.
If the tiller arm does fall downwardly part of the claw will engage the rubber ring
11 carried on the support element, thus preventing the tiller arm from moving downwardly
beyond a predetermined limit. Consequently it is to be understood that the support
element provides a support surface (defined by the upper part of the ring 12) which
engages the claw associated with the tiller extension arm, to prevent the tiller extension
arm from moving downwardly beyond a predetermined limiting position. In the described
embodiment, if the base 4 is on a horizontal support, the limiting position is substantially
horizontal regardless of the orientation of the tiller arm. In an alternative embodiment
the ring 11 may be of a greater diameter, with the support surface then engaging the
tiller extension arm rather than engaging the claw.
[0029] In the embodiment described above, both the ball 20 and the claw-forming components
30 and 31 are made of a plastics material which is selected to have certain desirable
properties. The plastic material is selected to be a self-lubricating material. In
order to have self-lubricating properties the plastic preferably contains between
10 and 20% (and most preferably substantially 15%) PTFE (Poly- Tetra-Fluoro-Ethylene).
The plastic material is preferably also fibre reinforced to have high strength. Whilst
glass fibre reinforcement may be utilised, carbon fibre reinforcement is preferred.
The carbon fibre reinforcement may comprise between 20 and 40% of the total weight
of the plastic, but preferably comprises substantially 30% of the weight of the plastic.
The rest of the plastic may be any appropriate plastic material, but it has been found
advantageous to use a nylon material, in particular nylon 66.
[0030] Such a plastic material is strong and durable and provides the desirable self-lubrication
properties.
[0031] Figures 5 and 6 illustrate a modified embodiment of the invention. Whilst the embodiment
of Figures 1 to 4 is quite satisfactory when used with a straight conventional tiller,
since the limiting position for the tiller extension arm is horizontal, regardless
of the orientation of the tiller, it has been found that a modified embodiment is
appropriate for use on a cranked or swan neck tiller.
[0032] In the modified embodiment shown in Figures 5 and 6, where the same references have
been used for parts which are identical with corresponding parts of the embodiment
of Figures 1 to 4, it is to be seen that the upper part of the annulus 9 which is
provided with the groove 10 to receive the rubber ring 11 no longer lies completely
in a single plane.
[0033] In the modified embodiment there is only one arcuate wall 7 supporting the annulus
9. In the region 12, diametrically opposed to the arcuate wall 7, the annulus 9 is
connected directly to the base 4, and thus in that region the upper surface of the
annulus is at a lower level than in the region 13 supported by the arcuate wall 7
and the support arms 8. In other words, in the region 12, the upper surface of the
annulus dips. Thus, the annulus or ring element has a portion 13 in a plane and a
further region, namely the region 12 off-set from the plane.
[0034] The support surface engages the claw or the tiller arm to prevent the tiller arm
moving beneath a predetermined limiting position. The limiting position is not the
same for each orientation of the tiller. If the tiller is aligned with the region
12 of the annulus, the predetermined limiting position is lower than if the tiller
is in a different orientation.
1. A tiller connection to connect a tiller extension arm (40) to a tiller, the tiller
connection comprising a support component (1) to be connected to the tiller, a ball
(2) with means (22, 23) to connect the ball to the support component and means (30,
31) to engage the ball and to be connected to the tiller extension arm (40), characterised in that the means to engage the ball comprise a claw having two components (30, 31) to engage
the ball to exert a substantial frictional force on the ball, the support component
(1) incorporating a ring element (9) located above a base (4) of the support component
(1), the ring element (9) being co-axial with the connection between the ball (2)
and the support component (1) and defining a support surface adapted to engage the
claw (30), or the tiller arm (40) to prevent the tiller arm (40) from moving beneath
a predetermined limiting position, the ball (2) and the claw forming components (30,
31) being made of a self-lubricating plastics material.
2. A tiller connection according to Claim 1 wherein the two-claw forming components (30,
31) are secured together by a bolt (32).
3. A tiller connection according to Claim 1 or 2, wherein the ring element (9) is carried
by the base (4) of the support component, the base (4) of the support component defining
a hollow spigot (5) adapted to receive a pin (22) carried by the ball (2) to connect
the ball to the support component.
4. A tiller connection according to Claim 3 wherein the ball has a pin (22) to be received
in the hollow spigot, the pin carrying retractable protruding elements (23) that engage
the spigot (5) to retain the ball (2) whilst permitting rotation of the ball, and
which can be retracted to permit the ball to be separated from the support component
(1).
5. A tiller connection according to any one of the preceding Claims wherein the plastic
materials utilised to form the ball (2) and the claw (30, 31) contains between 10
and 20% PTFE.
6. A tiller connection according to any one of the preceding Claims wherein the plastics
material utilised to form the ball (2) and the claw (30, 31) is fibre reinforced.
7. A tiller connection according to Claim 6 wherein the plastics material used to form
the ball (2) and the claw (30, 31) is carbon fibre reinforced.
8. A tiller connection according to Claim 7 herein the proportion of carbon fibre in
the plastic comprises between 20 and 40% by weight.
9. A tiller connection according to any one of the preceding Claims wherein a major component
of the plastics used to form the ball and the claw comprises nylon 66.
10. A tiller connection according to any one of the preceding Claims wherein the claw
comprises two substantially identical components (30, 31) which are interconnected
to define the claw.
1. Verbindung für Steuerausleger zum Verbinden eines Steuerauslegerarms (40) mit einem
Steuer, wobei die Verbindung für Steuerausleger eine mit dem Steuer zu verbindende
Haltekomponente (1), eine Kugel (2) mit Mitteln (22, 23) zum Verbinden der Kugel mit
der Haltekomponente und Mittel (30, 31), um die Kugel zu erfassen und mit dem Steuerauslegerarm
(40) verbunden zu werden, umfaßt, dadurch gekennzeichnet, daß die Mittel zum Erfassen der Kugel eine Klaue mit zwei Komponenten (30, 31) zum Ergreifen
der Kugel umfassen, um eine im wesentlichen Reibungskraft auf die Kugel auszuüben,
wobei die Haltekomponente (1) ein über einer Basis (4) der Haltekomponente (1) angeordnetes
Ringelement (9) einschließt, das Ringelement (9) koaxial mit der Verbindung zwischen
der Kugel (2) und der Haltekomponente (1) ist und eine Haltefläche definiert, die
gestaltet ist, um die Klaue (30) oder den Steuerauslegerarm (40) zu erfassen und den
Steuerauslegerarm (40) am Bewegen unter eine vorab festgelegte Grenzposition zu hindern,
wobei die Kugel (2) und die eine Klaue bildenden Komponenten (30, 31) aus einem selbstschmierenden
Kunststoffmaterial hergestellt sind.
2. Verbindung für Steuerausleger nach Anspruch 1, dadurch gekennzeichnet, daß die zwei klauenbildenden Komponenten (30, 31) durch einen Bolzen (32) gemeinsam gesichert
sind.
3. Verbindung für Steuerausleger nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß das Ringelement (9) von der Basis (4) der Haltekomponente getragen wird, wobei die
Basis (4) der Haltekomponente einen hohlen Zapfen (5) definiert, der gestaltet ist,
um einen von der Kugel (2) getragenen Stift (22) aufzunehmen und die Kugel mit der
Haltekomponente zu verbinden.
4. Verbindung für Steuerausleger nach Anspruch 3, dadurch gekennzeichnet, daß die Kugel einen in dem hohlen Zapfen aufzunehmenden Stift (22) aufweist, wobei der
Stift einziehbare vorragende Elemente (23) trägt, die den Zapfen (5) erfassen, um
die Kugel (2) zu halten, während sie eine Drehung der Kugel erlauben, und die zurückgezogen
werden können, um die Kugel von der Haltekomponente (1) zu trennen.
5. Verbindung für Steuerausleger nach irgendeinem der vorangehenden Ansprüche, dadurch gekennzeichnet, daß das zum Bilden der Kugel (2) und der Klaue (30, 31) verwendete Kunststoffmaterial
zwischen 10 und 20 % PTFE enthält.
6. Verbindung für Steuerausleger nach irgendeinem der vorangehenden Ansprüche, dadurch gekennzeichnet, daß das zum Bilden der Kugel (2) und der Klaue (30, 31) verwendete Kunststoffmaterial
faserverstärkt ist.
7. Verbindung für Steuerausleger nach Anspruch 6, dadurch gekennzeichnet, daß das zum Bilden der Kugel (2) und der Klaue (30, 31) verwendete Kunststoffmaterial
kohlefaserverstärkt ist.
8. Verbindung für Steuerausleger nach Anspruch 7, dadurch gekennzeichnet, daß der Anteil von Kohlefaser im Kunststoff zwischen 20 und 40 Gew.% umfaßt.
9. Verbindung für Steuerausleger nach irgendeinem der vorangehenden Ansprüche, dadurch gekennzeichnet, daß eine Hauptkomponente des zum Bilden der Kugel und der Klaue verwendeten Kunststoffes
Nylon 66 umfaßt.
10. Verbindung für Steuerausleger nach irgendeinem der vorangehenden Ansprüche, dadurch gekennzeichnet, daß die Klaue zwei im wesentlichen identische Komponenten (30, 31) umfaßt, die miteinander
verbunden sind, um die Klaue zu definieren.
1. Une liaison de barre de gouvernail, pou relier un bras extension de barre de gouvernail
(40) à une barre de gouvernail, la liaison de barre de gouvernail comprenant un composant
support (1), à relier à la barre de gouvernail, et des moyens (30, 31) pour mettre
en prise la boule et pour être reliés au bras d'extension de barre de gouvernail (40),
caractérisée en ce que les moyens prévus pour être mise en prise avec la boule comprennent une griffe ayant
deux composants (30, 31) devant venir en prise avec la boule afin d'exercer une force
de fiction notable sur la boule, le composant support (1) incorporant un élément annulaire
(9) placé au-dessus de la base (4) du composant support (1), l'élément annulaire (9)
étant coaxial avec la connexion entre la boule (2 et le composant support (1) et définissant
une surface support adaptée pour venir en prise avec la griffe (30), ou le bras de
barre de gouvernail (40), afin d'empêcher que le bras de barre de gouvernail (40)
se déplace au-dessous d'une position limite prédéterminée, la boule (2) et les composants
formant griffe (30, 31) étant réalisés en matière plastique autolubrifiante.
2. Une liaison de barre de gouvernail selon la revendication 1, caractérisée en ce que les composants formant deux-griffes (30, 31) sont fixés ensemble par un boulon (32).
3. Une liaison de barre de gouvernail selon la revendication 1 ou 2, dans laquelle l'élément
annulaire (9) est portée par la base (4) du composant support, la base (4) du composant
support définissant un tourillon (5) creux, adapté pour recevoir un téton (22) porté
par la boule (2), pour assurer la liaison de la boule au composant support.
4. Une liaison de barre de gouvernail selon la revendication 3, dans laquelle la boule
comporte un téton (22) à loger dans le tourillon creux, le téton portant des éléments
(23) en saillie, rétractables, devant venir en prise avec le tourillon (5) pour retenir
la boule (2) tout en permettant la rotation de la boule, et pouvant être rétracté
pour permettre à la boule d'être séparée du composant support (1).
5. Une liaison de barre de gouvernail selon l'une quelconque des revendications précédentes,
dans laquelle les matières plastiques utilisées pour former la boule (2) et la griffe
(30, 31) contiennent entre 10 et 20 % de PTFE.
6. Une liaison de barre de gouvernail selon l'une quelconque des revendications précédentes,
dans laquelle les matières plastiques utilisées pour former la boule (2) et la griffe
(30, 31) sont renforcées par des fibres.
7. Une liaison de barre de gouvernail selon la revendication 6, dans laquelle les matières
plastiques utilisées pour former la boule (2) et la griffe (30, 31) sont renforcées
par des fibres de carbone.
8. Une liaison de barre de gouvernail selon la revendication 7, dans laquelle la proportion
de fibres de carbone dans la matière plastique est comprise entre 20 et 40 % en poids.
9. Une liaison de barre de gouvernail selon l'une quelconque des revendications précédentes,
dans laquelle le composant principal des matières plastique utilisées pour former
la boule et la griffe comprend du nylon 66.
10. Une liaison de barre de gouvernail l'une quelconque des revendications précédentes,
dans laquelle la griffe est constituée de deux composants (30, 31) sensiblement identiques,
interconnectés pour définir la griffe.