The present invention relates to the field of articulated operating arms with at least two articulations, in particular with at least three articulations and still more particularly with folding articulations, and of mobile apparatuses with such an operating arm, such as for instance construction machines for excavating and loading shovel operations, agricultural machines such as tractors, forestry machines with wheels or caterpillar tracks, or other displacing means with a fixed frame or with a rotatable sub-frame on a main frame.
Known mobile apparatuses are described in, among others, the patent specifications NL2004954, NL2004784, NL2002125, NL1035694, NL1028661, NL1027370 and NL1019918 in the name of Applicant. The text of these patents is included here by way of reference.
Embodiments of the invention have the object of providing an improved articulated operating arm and mobile apparatus, and in particular an articulated arm with at least two articulations and a control member which allows a better distribution of forces in the articulations.
A first aspect of the invention relates to an articulated operating arm for a mobile apparatus comprising at least two articulations and a control member. The at least two articulations comprise a first articulation and a second articulation. The first articulation is connected for pivoting around a first axis to the second articulation, wherein the control member is operative for the purpose of moving the second articulation relative to the first articulation. The control member has a first end coupled to a coupling structure which is configured to connect this first end for pivoting around a second axis to the second articulation. The second axis is parallel to the first axis. The second articulation comprises an elongate structure and a wing. The elongate structure has a first end for connection to the first articulation, a second end and a side wall between the first and the second end. The wing is attached to the elongate structure. The coupling structure has a first end which is supported at the side wall of the elongate structure and a second end which is supported by the wing.
A better distribution of forces is obtained by holding the first end of the control member fixedly with a coupling structure which is supported on the one hand by the elongate structure and on the other by the wing, particularly in an embodiment in which the first articulation can be folded to a position against the second articulation by the control member. Embodiments of the invention after all allow the control member, as seen in top view, to be provided adjacently of the elongate structure without appreciable loss of strength. Owing to the suspension at two ends of the coupling structure there is less fatigue in the material of the control member and in the coupling structure which holds the control member, particularly in a folding arm which can be transformed from an articulated state to a single lifting arm state for the purpose of lifting loads or coupling of implements in both modes.
The control member is preferably operative between the first and the second articulation and is for instance a piston-cylinder assembly.
The elongate structure preferably comprises a hollow tube. Such a tube can impart the necessary strength to the articulation without making it heavy.
The wing preferably has a first long side with an elongate portion attached to an upper side of the elongate structure, and a second free long side. This free long side is preferably shaped such that the forces can on the one hand be properly absorbed and that the control member is on the other protected against fouling. The elongate portion on the first long side of the wing preferably forms a part of an upper side of the hollow tube. The wing is preferably formed so as to extend at least partially over the coupling structure. The wing is preferably plate-like. The wing preferably has a width in a direction transversely of the elongate structure which is greater at the first end of the elongate structure than at the second end of the elongate structure. The wing has for instance a first portion of a constant width adjacently of the first end of the elongate structure, after which the wing becomes gradually shorter in the direction of the second end of the elongate structure.
In an advantageous embodiment the second articulation comprises a connecting plate for connecting the second end of the coupling structure to the wing. This connecting plate thus forms a suspension for the second end of the coupling structure from the wing.
Preferably attached to the first end of the elongate structure is an extension piece which is oriented transversely of the elongate structure, the extension piece being attached to the wing. The extension piece transmits the force to a shaft pivotally connecting the first and second articulations so that the forces from the control member are better distributed over the two articulations between which the control member operates. In preferred embodiments this is brought about by the flowing lines of the free long side of the wing from the first end of the second articulation to the second end of the second articulation. In addition to having a structural function, the extension piece with wing also has a protective function in the folded-up state because it can protect technical parts of the mobile apparatus, and particularly also the control member and other parts of the articulations, from the surface, the soil, the sand, the stones etc. over which the mobile apparatus travels.
In an advantageous embodiment the coupling structure comprises a pin, and the first end of the control member is formed as a hollow shaft through which the pin protrudes. The pin then preferably protrudes through an opening in the connecting plate. According to a variant, the coupling structure comprises one or more hollow shaft parts, and the first end of the control member is formed as a solid shaft which is receivable in the one or more hollow shaft parts. A first such hollow shaft part can then be attached in the connecting plate and a second in the side wall.
The control member is preferably configured to move the second articulation to a position against or adjacently of the first articulation, wherein in the folded-up position of the articulated operating arm the wing extends partially over the control member in order to protect this control member.
In the preferred embodiment the at least two articulations comprise a third articulation and the second articulation is connected for pivoting around a third axis to the third articulation, wherein a further control member is provided for the purpose of moving the third articulation relative to the second articulation, wherein the further control member is connected for pivoting around a fourth axis to the second articulation, this fourth axis being parallel to the third axis. The further control member is preferably connected to the elongate structure at the first end of the elongate structure and on the upper side thereof. The elongate structure is then preferably provided with an elongate recess provided adjacently of the wing and configured to partially receive the further control member. The skilled person will appreciate that it is also possible to provide the further control member on the underside, in which case a recess can be provided on the underside. The further control member is preferably configured to move the third articulation to a position against or adjacently of the second articulation, this such that the articulated operating arm can be transformed into a single lifting arm, see also the above cited earlier patents in the name of Applicant which are included here by way of reference.
In a possible embodiment the second articulation comprises a first hollow shaft part attached to the first end of the elongate structure, which first hollow shaft part is configured to realize the pivoting connection around the first axis between the preceding and the second articulation. The second articulation can further comprise a second hollow shaft part which is attached to the extension piece, which second hollow shaft part lies in line with the first hollow shaft part, wherein a shaft part is received in the first and the second hollow shaft parts for the purpose of realizing the pivoting connection around the first axis between the first and the second articulation. The second hollow shaft part is preferably fixed against the extension piece by means of bolts.
The shaft part is preferably fixed relative to the first articulation by means of a fixed connection, preferably a keyway.
In a further developed embodiment the elongate structure is a hollow tube which is provided on the inner side with reinforcements formed by additional material and/or plates which further transmit the forces acting on the pivoting connection between the first and second articulations into the second articulation, preferably over the full width of the hollow tube.
In a still further developed embodiment the hollow tube is provided on its second end with a solid coupling piece welded against this second end, and the hollow tube is provided on its second end with reinforcements formed by additional material and/or plates which transmit the forces between the second articulation and the third articulation at the position of the coupling piece which is pivotally connected to the third articulation.
Other embodiments of the invention have the object of providing an improved articulated operating arm and mobile apparatus, and in particular an articulated arm with at least two articulations and a control member which allows guiding of a conduit from a first articulation of the operating arm to a second articulation without appreciable loss in respect of freedom of movement of the articulations.
Provided according to a second aspect of the invention is an articulated operating arm for a mobile apparatus comprising at least two articulations and a control member. The at least two articulations comprise a first articulation and a second articulation. The first articulation is connected for pivoting around a first axis to the second articulation, wherein the control member is operative for the purpose of moving the second articulation relative to the first articulation. At least one conduit runs in the form of a loop from the first articulation to the second articulation. The loop is dimensioned such that it can become smaller or larger when the second articulation is moved respectively in the direction of the first articulation or away from the first articulation.
The first articulation is preferably connected pivotally to the second articulation by means of a hollow shaft part, and the at least one conduit preferably runs from a side wall of the first articulation through the hollow shaft part to the second articulation. A conduit can in this way be carried in a convenient manner from a first side wall of a first articulation to another side wall of a subsequent articulation, this being particularly useful in articulated operating arms with several articulations, and in particular foldable articulated operating arms.
The at least one conduit is preferably attached to the first articulation and to the second articulation close to the first axis (A1). These locations are preferably chosen such that the movement of the conduits during rotation of the second articulation relative to the first articulation affects only the size of the loop. The at least one conduit is preferably attached against a side wall of the second articulation.
The at least one conduit can comprise a first and a second conduit which, as seen in a top view of the first and second articulations, are positioned adjacently of each other and each run in a loop of substantially the same radius from the first articulation to the second. The at least one conduit can also comprise a first and a second conduit which, as seen in a top view of the first and second articulations, are positioned one below the other and each run in a loop with a different radius from the first articulation to the second. Combinations hereof are also possible. The radius of the loop can further be adapted to the dimensions of the diameter of the conduit and/or to the stiffness of the conduit.
The at least one conduit typically comprises one or more of the following: a conduit configured to transport a liquid or gas under pressure; an electrical cable.
The control member is preferably configured to move the second articulation to a position against or adjacently of the first articulation. In a preferred embodiment the at least two articulations comprise a third articulation, and the second articulation is connected for pivoting around a third axis to the third articulation. A further control member can then be provided for the purpose of moving the third articulation relative to the second articulation, wherein the further control member is connected for pivoting around a fourth axis to the second articulation, this fourth axis being parallel to the third axis.
Advantageous embodiments are described in the dependent claims.
Note that the claims describe a structure with one wing, but that the skilled person will appreciate that such a wing construction can be provided on both sides of the second articulation.
The above and other advantageous features and objectives of the invention will become more apparent and the invention better understood with reference to the following detailed description when read in combination with the accompanying drawings, in which:
A first embodiment of an operating arm according to the invention is illustrated in
Control member 6 has a first end 601 which is coupled to a coupling structure, here in the form of a pin 210 configured to connect this first end 601 for pivoting around a second axis A2 to second articulation 2. The second axis A2 is parallel to the first axis A1. The first end 601 of control member 6 is provided with a hollow shaft part 610 through which pin 210 protrudes, see
As shown best in
Pin 210 has a first end 212 which is supported at side wall 223 of hollow tube 220 and a second end 211 which is supported via connecting plate 240 by extension piece 280 and wing 230. Side wall 223 can for instance be provided with a pin receiving part, for instance a hollow shaft part, in which the first end 212 of pin 210 is supported. Connecting plate 240 is attached to wing 230 and extension piece 280, and pin 210 protrudes through an opening 241 in connecting plate 240. The pin can be provided at its end 211 with a head part 213 which is fixed against connecting plate 240, although the skilled person will appreciate that this is not essential and that other ways of blocking the pin 210 can be envisaged. Note that pin 210 can also be bearing-mounted at its outer ends 211 and 212 and need not be fixedly attached.
As shown best in
Second articulation 2 further comprises a first hollow shaft part 250 which is attached to the first end 221 of hollow tube 220. The first hollow shaft part is configured to realize the pivoting connection around first axis A1 between first articulation 1 and second articulation 2, see
Second articulation 2 is connected for pivoting around third axis A3 to third articulation 3, and control member 7 is provided for the purpose of moving third articulation 3 relative to second articulation 2, wherein at the first end of hollow tube 220 control member 7 is connected for pivoting around a fourth axis A4 to second articulation 2, this fourth axis A4 being parallel to the third axis. Hollow tube 220 is provided with an elongate recess 270 which extends adjacently of wing 230 and is configured to partially receive control member 7. This will allow compact and proper folding-up of the articulated arm.
Hollow tube 220 can be provided on the inner side with reinforcements formed by additional material and/or plates which further transmit the forces acting on the pivoting connection between first articulation 1 and second articulation 2 into second articulation 2, preferably over the full width of hollow tube 220. Hollow tube 220 is further provided on its second end 222 with a solid coupling piece 290 which is welded against this second end 222. Hollow tube 220 can then be provided at its second end 222 with reinforcements formed by additional material and/or plates which transmit the forces between second articulation 2 and third articulation 3 at the position of coupling piece 290 which is connected pivotally to third articulation 3.
Embodiments of the invention have, among others, one or more of the following advantages relative to the prior art:
First articulation 1 is connected pivotally to second articulation 2 by means of a hollow shaft part 100 (which functions similarly to shaft part 110 of the first embodiment), and the three conduits run from a side wall of first articulation 1 through hollow shaft part 100 to a side wall of second articulation 2, see also
In the illustrated variant the three conduits 200 are positioned one below another as seen in a top view of the first and second articulations 1, 2 and they each run in a loop L with a different radius from the first articulation to the second. It is however also possible to provide a plurality of conduits which, as seen in a top view of the first and second articulations, are positioned adjacently of each other and each run in a loop of substantially the same radius from the first articulation to the second.
Conduit 200 can comprise one or more of the following: a conduit configured to transport a liquid or gas under pressure; an electrical cable.
There are no solutions available in the prior art which allow the possibility of conduits folding/rotating more than 120 degrees in a very compact space as will typically be the case in embodiments of the invention. Applicant previously devised a solution with a swivel joint, which solution is readily possible for hydraulic fluid although it entails a pressure drop due to the resistance in the swivel joint. The embodiments of
The skilled person will appreciate that embodiments of the invention can also be readily applied in operating arms with two articulations or in operating arms with more than two articulations. The structure of the second articulation can thus also be applied for instance in a third, fourth or fifth articulation of an arm with five articulations.
It is further possible to provide the wing and extension construction on either side of second articulation 2, i.e. a left and a right-hand wing 230, a left and a right-hand extension piece 280 etc., wherein a left and a right-hand control member 6 can then be provided.
An articulated operating arm as described above can be applied in, among others, construction machines for excavating and loading shovel operations, in agricultural machines such as tractors, in forestry machines with wheels or caterpillar tracks, or other displacing means with a fixed frame or with a rotatable sub-frame on a main frame. Such machines are described in the patent specifications NL2004954, NL2004784, NL2002125, NL1035694, NL1028661, NL1027370 and NL1019918 in the name of Applicant, and the text of these patents is included here by way of reference.
The skilled person will appreciate that the invention is not limited to the above described embodiments and that many modifications and variants are possible within the scope of the invention, which is defined solely by the following claims.
Number | Date | Country | Kind |
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2012278 | Feb 2014 | NL | national |
Filing Document | Filing Date | Country | Kind |
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PCT/NL2015/050083 | 2/9/2015 | WO | 00 |