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EP 1 038 801 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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27.11.2002 Bulletin 2002/48 |
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Date of filing: 23.03.2000 |
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International Patent Classification (IPC)7: B65D 90/14 |
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Support leg construction for a container or the like
Behälterstützbein
Pied de support pour conteneur
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Designated Contracting States: |
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AT BE CH CY DE DK ES FI FR GB GR IE IT LI LU MC NL PT SE |
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Designated Extension States: |
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AL LT LV MK RO SI |
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Priority: |
26.03.1999 FI 990677
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Date of publication of application: |
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27.09.2000 Bulletin 2000/39 |
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Proprietor: Oy Närko Ab |
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64201 Närpiö (FI) |
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Inventors: |
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- Nickull, Tommy
64200 Närpes (FI)
- Eklund, Göran
64140 Tjöck (FI)
- Aystö, Jussi
64770 Aystö (FI)
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(74) |
Representative: Roitto, Klaus et al |
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Kolster Oy Ab,
P.O. Box 148,
Iso Roobertinkatu 23 00121 Helsinki 00121 Helsinki (FI) |
(56) |
References cited: :
DE-A- 19 653 695 US-A- 3 112 836
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FR-A- 1 597 053
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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 invention relates to a support leg construction for a container and a corresponding
covering structure being supported by a chassis, the support leg construction including
a support leg comprising a rotatable part and a turnable part at an angle to the rotatable
part, the support leg being turnable by means of a bearing structure from a first,
mainly horizontal, rest position in which it is retracted to the chassis to a second,
mainly vertical, pulled out parking position in relation to the chassis for supporting
the chassis, whereby the support leg and the chassis comprise supporting surfaces
placed against each other and arranged to be pressed against each other when the support
leg is in the pulled out position, and locking devices for keeping the support leg
locked to the chassis when the support leg is in the pulled out position, the locking
devices comprising two co-operating locking means.
[0002] Turnable and/or detachable support leg constructions are needed in various types
of chassis, such as the chassis of trailers, to temporarily support them.
[0003] Support leg constructions are needed in the cabins of towing vehicles and in trailers,
when the towing vehicle is detached from the trailer. Generally there are four support
legs. When the towing vehicle is detached from the trailer the support legs are turned
from a horizontal rest position, where the legs are meant to be when the trailer is
moving, to a vertical parking position against the ground for supporting the trailer
substantially horizontally. Turning the support legs into different operating positions,
i.e. from a rest position to a parking position and vice versa, requires a great deal
of muscular strength, as the support leg constructions are heavy. Furthermore, to
turn the support legs from a rest position to a parking position involves high risks
due to the heavy weight and may cause injuries when the heavy steel parts hit a person's
feet.
[0004] A known support leg construction for trailers comprises a massive triangle-support-hook
construction that swings freely as a pendulum when it drops from a rest position to
a parking position, and may thus cause leg injuries. Fingers are also at risk in this
prior art solution, as scissors-shaped cutting parts may be created between the support
leg and the hook when the hook swings freely. Another problem with this prior art
support leg construction is that the support leg does not support the chassis adequately,
and the system has a lot of looseness and the construction swings. Another significant
problem with this prior art leg construction is that the hook thereof is inappropriately
placed regarding the wheel of the towing vehicle (cf. attached Figure 1). The space
between the legs is limited, thus making it difficult to drive the towing vehicle
beneath the chassis.
[0005] In practice the problems above mean that placing the chassis on the support legs
is slow and that attention has to be paid on several matters.
[0006] US patent 3112836 discloses a support leg construction according to the preamble
in the attached claim 1. The problem with this prior art solution is that the co-operating
locking means have to be produced practically free from tolerance, so that the covering
structure supported by the support leg construction cannot swing back and forth. As
the locking means are practically free from tolerance, dirt and rust etc. therein
prevent the locking means from functioning. Dirt may be carried into the locking means
in the open position.
BRIEF DESCRIPTION OF THE INVENTION
[0007] It is an object of the present invention to remove or at least substantially reduce
the above problems. This object is achieved with a support leg construction, characterized
in that the locking means comprise self-tightening wedge-shaped tightening surfaces
arranged to be tightened against each other more strongly as the mass placed upon
the chassis increases, i.e. the greater the mass is, whereby the first tightening
surface of the tightening surfaces is formed on the rotatable part and the second
tightening surface of the tightening surfaces is formed on a reception part arranged
on the chassis so as to receive a container or a corresponding load placed upon the
chassis when the support leg is in the parking position. These tightening surfaces
can be defined as gripping surfaces as well.
[0008] The first tightening surface is preferably formed on a wedge-shaped cam part of the
rotatable part, whereby the reception part comprises a recess substantially corresponding
to the form of the cam part for receiving the cam part. The support leg construction
preferably includes a pin-hole type of locking device that enables the support leg
to be easily locked into two operating positions.
[0009] The preferred embodiments of the invention are disclosed in the appended claims 2
to 7.
[0010] The invention is based on the idea to lock the support leg without a massive support
hook, and to utilize instead light support means that comprise self-tightening surfaces.
By arranging these surfaces close to the rotation axis of the rotatable part the support
leg can easily be turned as no torque impeding turning exists.
[0011] The most significant advantages provided by the support leg construction of the invention
are that the support leg supports the chassis firmly in such a manner that it does
not move back and forth, and the support leg construction is safer to use than prior
art constructions, it may be rapidly mounted into different operating positions and
it allows to easily drive a towing vehicle or a trailer beneath the chassis. The greater
the vertical load placed upon the support leg construction the firmer the support
provided by the support leg construction becomes. Dirt or rust in the locking means
do not prevent the support leg construction from functioning. Even if the support
leg is mounted on an uneven surface, the wedge-shaped tightening surfaces function
as guiding surfaces so as to lock the locking means tightly to one another.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] In the following the invention will be described in greater detail by means of a
preferred embodiment with reference to the attached drawing, in which
Figure 1 shows a prior art support leg construction,
Figure 2 shows a support leg construction of the invention attached to a chassis and
set into a parking position,
Figure 3 illustrates the support leg construction in Figure 2 in a rest position,
and
Figure 4 illustrates the support leg construction in Figure 2 in a parking position.
DETAILED DESCRIPTION OF THE INVENTION
[0013] Figure 1 shows a prior art support leg construction including a support leg 1' comprising
a rotatable part 2' and a turnable part 3' attached thereto at a straight angle. The
rotatable part 2' is pivotally mounted into a chassis 4'. Bushings 20' surrounding
the rotatable part 2' form the bearing. In order to keep the support leg 1' in a vertical
position, the support leg construction includes a turnable support hook 5', which
is attached to the chassis 4' from one end while the other end is pivotally mounted
to the turnable part 3' of the support leg. In this prior art support leg construction
the support hook 5' narrows, as is understood from Figure 1, the distance between
the support legs 1' close to the rotatable part 2', thus significantly impeding a
towing vehicle to be driven between the support legs. The massive support hook 5'
is very hard to turn which creates a further problem. In addition, the support hook
5' does not support the support leg to the chassis 4' firmly and without tolerance.
[0014] Figure 2 shows a support leg construction of the invention. In general, support legs
indicated with reference numeral 1 comprise a rotatable part 2 and a turnable part
3. The rotatable part 2 is mounted to the chassis 4 with bush-like bearings 20. This
solution does not include a support hook (5') in contrast to the solution shown in
Figure 1. The structure is therefore lighter than the structure shown in Figure 1,
and there is no need to turn a massive support hook (using muscle strength). Furthermore,
the "effective distance" between the support legs 1 at the edges of the chassis 4
equals the distance between the support legs close to the ground.
[0015] Figures 3 and 4 describe how the support leg 1 is locked to the chassis 4.
[0016] Figure 3, where the support leg 1 is in the retracted rest position supported by
a holder 13 indicated by dashed lines, shows that the rotatable part 2 of the support
leg comprises an upwards tapering wedge-shaped cam part 6 which is pushed into a recess
8, corresponding in shape with the cam part, in a reception or form locking part 7.
As the reception part 7 is built into the chassis 4 in such a manner that it receives
a load placed upon the chassis, for example the load provided by a container 17, a
surface 6a of the cam part which can be referred to as a tightening surface is wedged
against the recess 8 of the reception part 7 forming a tightening surface 8a corresponding
to the tightening surface 6a of the cam part. The greater the vertical load placed
upon the chassis, i.e. the greater the mass the chassis supports, the tighter and
firmer the wedging force is. At the same time the support leg 1 is more firmly wedged
to the chassis 4. The form locking part 7 is formed as a fixed part of the chassis.
As the form of the tightening surface 8a corresponds with the form of the tightening
surface 6a of the cam part, the reception part can be referred to as the form locking
part. Deviating from Figure 4 the reception part 7 may comprise a recess which is
differently shaped than the cam 6. Accordingly the reception part 7 may comprise,
for example, a recess shaped as a gap or a jaw for receiving the cam. The main point
is that the reception part 7 receives in a tightening manner, when loaded, the cam
or another wedge-shaped part of the rotatable part 2. The tightening surfaces 6a,
8a may also be referred to as guiding surfaces, as they guide the cam part into the
recess 8, even if the support leg 1 is obliquely positioned, i.e. if the turnable
part 3 is not in a vertical position.
[0017] Figure 4 shows that a space 21 is left between the cam of the cam part 6 and the
recess 8 of the reception part 7. The space 21 may receive dirt, for example, which
is why the cam of the cam part 6 is always capable of being directed sufficiently
deep into the recess 8 so that the tightening surfaces 6a, 8a provide said tightening
function (wedging and self-tightening).
[0018] The cam 6 and reception part 7 are to be designed so as to be able to receive also
such - sometimes even heavy - loads that tend to turn the support leg 1 when it is
in the parking position. Said loads are typically created when a forklift supported
on the chassis is in motion and breaks abruptly.
[0019] When the support leg is in the position indicated in Figure 4, a handle 9 provided
with a spring 12 comprising a pin 10, cf. Figure 3, in the support leg construction
is pushed into a hole 11 or recess in the rotatable part 2 and prevents the rotatable
part from moving away from the pulled out parking position shown in Figure 4. The
spring 12 urges the pin 10 of the handle 9 into the hole 11; if the pin 10 is to be
removed from the hole 11, the handle 9 is pulled against the load of the spring 12.
When the pin is removed from the hole 11, the support leg 1 can be revolved 90 degrees
counter-clockwise - assuming that the chassis is supported by a towing vehicle (not
shown) - and simultaneously push it inwards towards the chassis 4 to the rest position
shown in Figure 3. In the position shown in Figure 3 the handle 9 and the pin 10 thereof
are pushed into a second hole 14 or recess (cf. Figure 4) in the rotatable part; the
hole 14 or recess being at a distance and at a straight angle, or at an almost straight
angle, in relation to the hole 11. The pulled out position of the handle 9 (in which
case the tip of the pin 10 is spring-loaded against the curved surface of the rotatable
part 2) shows whether the support leg 1 is in a non-locking position, or in a position
that does not correspond to either of the positions shown in Figures 3 or 4. The support
leg is locked when the handle 9 is pushed in (and the tip of the pin is in either
of the holes 11 or 14).
[0020] Figures 2 to 4 illustrate that the distance between the support legs 1 can be relatively
long, as no support hook (5') exists and the effective distance between the support
legs is, for example, 2840 mm, providing approximately 200 mm more space than the
prior art solution in Figure 1 and plenty of space is left for the wheels of a towing
vehicle provided with mudguards 18.
[0021] The rotatable part 2 of the support leg construction, the form locking part 7 and
the spring 12 are formed within a cover 15. Thus, said parts remain covered from dirt
and from possible impact. The cover 15 comprises a through-hole 16 for the axis of
the handle 9.
[0022] The invention has above been described by means of an example. However, the details
of the invention can be implemented in various ways within the scope of the appended
claims. Therefore, it may, for instance, be considered that the reception part 7 (and
not the rotatable part 2) comprises a wedge-shaped cam, in which case a recess or
a groove is formed into the rotatable part 2 for receiving the wedge-shaped cam. The
support leg does not have to be, in accordance with Figure 3, in an entirely horizontal
position when it is in the rest position, but the position thereof may deviate from
the horizontal position, as the expression "mainly horizontal" indicates in claim
1.
1. A support leg construction for a container and a corresponding covering structure
being supported by a chassis (4), the support leg construction including a support
leg (1) comprising a rotatable part (2) and a turnable part (3) at an angle to the
rotatable part, the support leg being turnable by means of a bearing structure (20)
from a first, mainly horizontal, rest position in which it is retracted to the chassis
to a second, mainly vertical, pulled out parking position in relation to the chassis
for supporting the chassis, whereby the support leg and the chassis comprise supporting
surfaces (6a, 8a) placed against each other and arranged to be pressed against each
other when the support leg is in the pulled out position, and locking devices (6,
7, 9 to 12) for keeping the support leg locked to the chassis when the support leg
is in the pulled out position, the locking devices comprising two co-operating locking
means (6, 8), characterized in that the locking means comprise self-tightening wedge-shaped tightening surfaces (6a,
8a) arranged to be tightened against each other more strongly as the mass placed upon
the chassis (4) increases, i.e. the greater the mass is, whereby the first tightening
surface (6a) of the tightening surfaces is formed on the rotatable part (2) and the
second tightening surface (8a) of the tightening surfaces is formed on a reception
part (7) arranged on the chassis (4) so as to receive a container or a corresponding
load placed upon the chassis when the support leg (1) is in the parking position.
2. A support leg construction as claimed in claim 1, characterized in that the first tightening surface (6a) is formed on a wedge-shaped cam part (6) of the
rotatable part (2), whereby the reception part (7) comprises a recess (8) substantially
corresponding with the shape of the cam part for receiving the cam part.
3. A support leg construction as claimed in claim 2, characterized by leaving a space (21) between the recess (8) and the cam part (6) when the support
leg (1) is in the parking position and the cam part is placed in the recess.
4. A support leg construction as claimed in claim 1, characterized in that the locking device (9 to 12) further comprises pin-hole locking means (9, 11) loaded
with a spring (12) for locking the rotatable part (2) to the chassis (4) so as to
prevent the support leg (1) from moving from the pulled out position to the retracted
position.
5. A support leg construction as claimed in claim 4, characterized in that the hole (11) in the locking means is formed on the rotatable part (2) of the support
leg, whereby the pin is formed on a manually operated handle (9).
6. A support leg construction as claimed in claim 5, characterized in that the rotatable part (2) of the support leg comprises an additional hole (14) formed
at a distance from the hole (11) seen from the longitudinal direction of the rotatable
part and approximately at a straight angle in relation to the hole.
7. A support leg construction as claimed in claim 6, characterized in that the rotatable part (2) of the support leg is arranged in a cover (15) formed on the
chassis (4) comprising an opening (16) for an axis of the handle.
1. Behälterstützbein und entsprechende Abdeckstruktur, die durch ein Chassis (4) getragen
wird, wobei die Stützbeinkonstruktion ein Stützbein (1), umfassend ein rotierbares
Teil (2) und ein drehbares Teil (3) in einem Winkel zum rotierbaren Teil, wobei das
Stützbein mittels einer Tragestruktur (20) aus einer ersten, vorwiegend horizontalen
Ruhestellung in welcher es in das Chassis eingezogen ist, in eine zweite, vorwiegend
vertikale, in Bezug auf das Chassis herausgezogene Parkstellung zum Stützen des Chassis
drehbar ist, wobei das Stützbein und das Chassis Auflageflächen (6a, 8a), die einander
gegenüber angeordnet sind und angeordnet sind, um gegeneinandergedrückt zu werden,
wenn sich das Stützbein in der herausgezogenen Stellung befindet, und Feststellvorrichtungen
(6, 7, 9 bis 12) einschließt, die das Stützbein am Chassis arretiert lassen, wenn
sich das Stützbein in der herausgezogenen Stellung befindet, wobei die Feststellvorrichtungen
zwei zusammenwirkende Feststellmittel (6, 8) umfassen, dadurch gekennzeichnet, dass die Feststellmittel selbstfestziehende keilförmige Spannflächen (6a, 8a) umfassen,
die dafür sorgen, dass sie stärker gegeneinander festgezogen werden, wenn die Masse,
die auf dem Chassis (4) liegt, zunimmt, d.h. je größer die Masse ist, wobei die erste
Spannfläche (6a) der Spannflächen am rotierbaren Teil (2) angeordnet ist, und die
zweite Spannfläche (8a) der Spannflächen an einem Aufnahmeteil (7) angeordnet ist,
das am Chassis (4) angeordnet ist, um einen Behälter oder eine entsprechende Last
aufzunehmen, die auf dem Chassis liegt, wenn sich das Stützbein (1) in der Parkstellung
befindet.
2. Stützbeinkonstruktion nach Anspruch 1, dadurch gekennzeichnet, dass die erste Spannfläche (6a) an einem keilförmigen Schulterteil (6) des rotierbaren
Teils (2) angeordnet ist, wobei das Aufnahmeteil (7) eine Aussparung (8) umfasst,
die im wesentlichen der Form des Schulterteils zur Aufnahme des Schulterteils entspricht.
3. Stützbeinkonstruktion nach Anspruch 2, dadurch gekennzeichnet, dass zwischen der Aussparung (8) und dem Schulterteil (6) eine Lücke bleibt, wenn sich
das Stützbein (1) in der Parkstellung befindet und das Schulterteil in der Aussparung
untergebracht ist.
4. Stützbeinkonstruktion nach Anspruch 1, dadurch gekennzeichnet, dass die Feststellvorrichtung (9 bis 12) femer Stiftlochfeststellmittel (9, 11) umfasst,
die zum Feststellen des rotierbaren Teils (2) am Chassis (4) mit einer Feder (12)
gespannt sind, um zu verhindern, dass sich das Stützbein (1) aus der herausgezogenen
Stellung in die eingezogene Stellung bewegt.
5. Stützbeinkonstruktion nach Anspruch 4, dadurch gekennzeichnet, dass das Loch (11) in den Feststellmitteln am rotierbaren Teil (2) des Stützbeins angeordnet
ist, wobei das Loch an einem per Hand betriebenen Griff (9) angeordnet ist.
6. Stützbeinkonstruktion nach Anspruch 5, dadurch gekennzeichnet, dass das rotierbare Teil (2) des Stützbeins ein zusätzliches Loch (14) umfasst, das in
einigem Abstand vom Loch (11), gesehen von der Längsrichtung des rotierbaren Teils
und ungefähr in einem gestreckten Winkel in Bezug auf das Loch, angeordnet ist.
7. Stützbeinkonstruktion nach Anspruch 6, dadurch gekennzeichnet, dass das rotierbare Teil (2) des Stützbeins in einer am Chassis (4) angeordneten Abdeckung
(15) angeordnet ist, die eine Öffnung (16) für eine Achse des Griffs umfasst.
1. Construction d'un pied de support pour un conteneur et structure couvrante correspondante
supportées par un châssis (4), la construction de pied de support comprenant un pied
de support (1) comprenant une pièce rotative (2) et une pièce tournante (3) à un angle
par rapport à la pièce rotative, le pied de support étant tournant au moyen d'une
structure de palier (20) depuis une première position de repos principalement horizontale
à laquelle il est rétracté vers le châssis vers une seconde position fixe étendue
principalement verticalement par rapport au châssis pour supporter le châssis, moyennant
quoi le pied de support et le châssis comprennent des surfaces de support (6a, 8a)
placées l'une contre l'autre et agencées pour être comprimées l'une contre l'autre
lorsque le pied de support se trouve dans la position étendue, et des dispositifs
de verrouillage (6, 7, 9 à 12) pour maintenir le pied de support verrouillé au châssis
lorsque le pied de support se trouve dans la position étendue, les dispositifs de
verrouillage comprenant deux moyens de verrouillage coopérants (6, 8), caractérisée en ce que les moyens de verrouillage comprennent des surfaces de serrage en forme de coin autoserrantes
(6a, 8a) agencées pour être serrées l'une contre l'autre plus fortement à mesure que
la masse placée sur le châssis (4) augmente, c'est-à-dire lorsque la masse est plus
grande, moyennant quoi la première surface de serrage (6a) des surfaces de serrage
est formée sur la pièce rotative (2) et la seconde surface de serrage (8a) des surfaces
de serrage est formée sur une pièce de réception (7) agencée sur le châssis (4) de
manière à recevoir un conteneur ou une charge correspondante placée sur le châssis
lorsque le pied de support (1) se trouve dans la position fixe.
2. Construction de pied de support selon la revendication 1, caractérisée en ce que la première surface de serrage (6a) est formée sur une pièce formant came en forme
de coin (6) de la pièce rotative (2), moyennant quoi la pièce de réception (7) comprend
un creux (8) correspondant sensiblement à la forme de la pièce formant came pour recevoir
la pièce formant came.
3. Construction de pied de support selon la revendication 2, caractérisée
par un espace (21) laissé entre le creux (8) et la pièce formant came (6) lorsque le
pied de support (1) se trouve dans la position fixe et la pièce formant came est placée
dans le creux.
4. Construction de pied de support selon la revendication 1, caractérisée en ce que le dispositif de verrouillage (9 à 12) comprend en outre des moyens de verrouillage
à cheville et trou (9, 11) chargés par un ressort (12) pour verrouiller la pièce rotative
(2) au châssis (4) de manière à empêcher le pied de support (1) de se déplacer de
la position étendue à la position rétractée.
5. Construction de pied de support selon la revendication 4, caractérisée en ce que le trou (11) dans les moyens de verrouillage est formé sur la pièce rotative (2)
du pied de support, moyennant quoi la cheville est formée sur une poignée actionnée
manuellement (9).
6. Construction de pied de support selon la revendication 5, caractérisée en ce que la pièce rotative (2) du pied de support comprend un trou supplémentaire (14) formé
à une distance du trou (11) vu depuis le sens longitudinal de la pièce rotative et
approximativement à angle droit par rapport au trou.
7. Construction de pied de support selon la revendication 6, caractérisée en ce que la pièce rotative (2) du pied de support est agencé dans un capot (15) formé sur
le châssis (4) comprenant une ouverture (16) pour un axe de la poignée.