• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    In a coupling part (1) of a vehicle coupling system (2), it is proposed that the coupling part [(1)] has positioning means (3) for guiding a counter coupling part (4) to a fixing position in a coupling operation, that fixing means (5) between a release position and a fixing position in the fixing position, the fixing device (5) can fix a counter coupling part (4) in the fixing position in a fixed position, and in that the coupling part [(1) has a contact device (6) with movably arranged connections (61), wherein the contacting device (6) in the fixing position of the fixing device (5), the connections (61) can move in the direction of a counterpart part (4) located in the fixing position.
    公开号:AT514147A1
    申请号:T228/2013
    申请日:2013-03-25
    公开日:2014-10-15
    发明作者:
    申请人:Scharmüller Josef Ing;
    IPC主号:
    专利说明:

    ······ • ·········· ..... 34160 / mo
    The invention relates to a coupling part of a vehicle coupling system according to the preamble of claim 1.
    In the municipal, agricultural or forestry field, a variety of trailers and attachable tools are known, which perform different tasks, such as snow plow, snow blower, sweeper, mower and the like. In operation, a variety of vehicles with different hitch and clutch systems are usually provided for the different trailers and essays, which have a coupling device for the different trailers and essays, such as drawbar or three-point power lift. Here, the different trailers and attachments often have very different requirements for the attachments ^ and coupling systems, for example, because certain trailers are articulated to be coupled and others, such as a snow plow, to be firmly attached to the vehicle.
    A disadvantage of such systems is that in operation usually a frequent change of the trailer or the attachment is necessary, whereby a correspondingly large fleet is necessary. Furthermore, changing a trailer usually requires two people, or is required by an experienced person only with great expenditure of time and effort, since changing the trailer handling a trailer * or coupling system, for example for connecting the PTO or electrical connections, necessary has. In this case, such a change represents a significant risk potential, as for the change a person must handle in the danger area between towing vehicle and trailer.
    The object of the invention is therefore to provide a coupling part of a vehicle coupling system, with which the mentioned disadvantages can be avoided, with which a faster and safer coupling process is possible.
    This is achieved by the features of claim 1 according to the invention.
    This results in the advantage that, for example, the coupling of a trailer or an attachment to a vehicle can be much easier. 2/26 9 •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• · · · «•: · * 1 ·· ···· ··· ··· 34160 / mo
    In this case, the change can take place substantially fully automatically, since the coupling part aligns the counter-coupling part suitably by means of the positioning device, fixes it securely in position with the fixing device, and subsequently connects the necessary connections by means of the contacting device after the fixation. This allows the operator of the vehicle during the coupling process remain in the cab, thereby reducing the time required and the potential risk can be almost eliminated * Furthermore, the Gegenkoppluhgsteil be attached directly to the trailer or tool or an adapter with a conventional coupling system, so that conventional trailer and Tools can be used.
    The invention further relates to a Fährzeugkoppelungssystem according to the preamble of claim 11.
    Furthermore, the invention relates to a vehicle according to claim 12.
    The invention further relates to an add-on module according to the preamble of claim 14.
    Furthermore, the invention relates to a method for coupling a vehicle coupling system according to claim 16.
    The object of the invention is therefore further to provide a method for coupling a vehicle coupling system, with which the mentioned disadvantages can be avoided, with which a faster and safer coupling process is possible.
    This is achieved by the features of claim 16 according to the invention.
    The advantages of the method correspond to the above-mentioned advantages of the coupling part.
    The subclaims relate to further advantageous embodiments of the invention
    It is hereby expressly referred to the wording of the claims, whereby the claims at this point are incorporated by reference into the description and are considered to be reproduced verbatim. 3/26 · • • • • • • • • • • •
    ···· ············································································································································································
    The invention will be described in more detail with reference to the accompanying drawings, in which only preferred embodiments are shown by way of example. Showing:
    Fig. 1 shows a preferred embodiment of a coupling part as axonometric representation;
    Fig. 2 shows the preferred embodiment of a coupling part in side view;
    3 and 4 show a detail of a preferred embodiment of a vehicle coupling system in two different states;
    Figures 5 to 7 show a further detail of the preferred embodiment of a vehicle coupling system in three different states;
    8 shows a preferred embodiment of an add-on module as an axonometric representation,
    9 shows the preferred embodiment of an add-on module in side view;
    10 shows the preferred embodiment of an add-on module as viewed from the rear;
    Fig. 11 shows the preferred embodiment of a cultivation modus as seen from the front;
    Figures 12 and 13 show the preferred embodiment of an add-on module and a preferred embodiment of a vehicle in two different states;
    14 shows the preferred embodiment of an add-on module and the preferred embodiment of a vehicle in the coupled state in an axonometric representation; and
    Fig. 15, the preferred embodiment of a mounting module and the preferred embodiment of a vehicle in the coupled state from a rear view.
    Figures 1 to 7 and 12 to 16 show at least parts of preferred embodiments of a coupling part 1 of a vehicle coupling system 2. A vehicle coupling system 2 is a system for releasably coupling a mounting module 8 to a vehicle 7. The vehicle coupling system 2 comprises a 4/26 · ♦ ♦ · · · · · · · · · · · · · · *
    Coupling part 1 and connectable to the coupling part 1 Gegenkoppelungsteil 4. Here, the coupling part 1, for example, be attached to the vehicle 7 or to the attachment module 8.
    It is provided that the coupling part 1 has a positioning device 3 for guiding a Gegenkoppelungsteils 4 in a fixing position in a Ankoppelungsvorgang that a fixing device 5 is movably disposed between a release position and a fixing position, wherein the fixing device 5 in the fixing position a Gegenkoppelungsteil 4 in the fixing position can firmly fix, and that the coupling part 1 has a contacting device 6 with movably arranged terminals 61, wherein the contacting device 6 in the fixing position of the fixing device 5, the terminals 61 can move in the direction of a located in the fixing position Gegenkoppelungsteils 4. As a result, a coupling process can be done very quickly and safely.
    The positioning device 3 is a device of the coupling part 1 which is adapted to transfer in a coupling operation to be coupled to the coupling part 1 Gegenkoppetungsteil 4 from a predeterminable area in a predetermined fixing position, wherein the arranged in the fixing position Gegenkoppelungsteil 4 by the fixing device 5 fixed on the coupling part 1 can be fixed.
    The fixing device 5 is in this case designed to engage with a, in particular at least partially counterpart, part of the counter coupling part 4 and the counter coupling part 4 by means of positive locking position, ie in particular rigidly connected to the coupling part 1. The fixation takes place here with a arranged in the fixing position counter coupling part 4, wherein the fixing position can also be referred to as a mounting position of the counter coupling part 4.
    The coupling part 1 further has a contacting device 6 with movable, in particular linearly movable, arranged connections 61. The contacting device 6 is designed to effectively connect the terminals 61 to the counter-coupling part 4, in particular automatically, when the counter-coupling part 4 is held in the fixing position. The connection of the connections 61 5/26 • «· ···································································································································································································· In this context, 34160 / mo with the counter-coupling part 4 means that the connections 61 are connected to counter-connections 43 of the counter-coupling part 4. In this case, a reliable, and in particular automatic, connection of the connections 61 with the counter coupling part 4 can take place, since the counter coupling part 4 is fixedly held in a predefinable position, namely the fixing position. The connection can be made by moving the connections 61 through the contacting device 6 in the direction of the counter-coupling part 4.
    Furthermore, in particular a vehicle coupling system 2 comprising a coupling part 1 and a counter coupling part 4 may be provided, wherein the counter coupling part 4 in the fixing position by the fixing 5 fixed on the coupling part 1 can be fixed, that the Gegenkoppelungsteil 4 has mating connections 43, and that the contacting device 6, the terminals 7 of the coupling part 1 and counter connections 43 of a located in the fixing position Gegenkoppelungsteils 4 can operatively connect.
    In a method for coupling a vehicle coupling system 2, it is provided that in a positioning step, the counter coupling part 4 is guided in a fixing position of a coupling part 1, wherein the counter coupling part 4 is fixed in a fixing step by a fixing device 5 of the coupling part 1 positionally fixed to the coupling part 1, wherein Subsequently, in a contacting step from a contacting device 6 of the coupling part 1, connections 7 of the coupling part 1 and counter connections of the negative coupling part 4 are operatively connected. As a result, a coupling process can be done very quickly and safely.
    Furthermore, in particular a vehicle 7 comprising at least one coupling part 1 can be provided.
    Particularly preferably, an attachment module 8 may be provided for a vehicle 7, wherein the attachment module 8 has a counter coupling part 4 with mating connections 43, that the mating coupling part 4 to the coupling part 1 of the vehicle 7 fixed in position fixable, and that the mating connections 43 with the terminals 7 of Coupling part 1 are connectable. 6/26 · * £ ·· ······· 34160 / mo
    As shown in the preferred embodiment in FIGS. 1 and 2, it may be particularly preferred that the positioning device 3 has a centering receptacle 34, in which a slide-in body 41 of the counter-coupling part 4 can be introduced, and that the centering receptacle 34 in the direction of a first end the centering 34 narrows. By moving the slide body 41 in the direction of the narrowing end of the centering 34 can be achieved by a mutually directed relative movement wipe coupling part 1 and GegenkoppelungsteiL 4 in a simple manner centering and associated positioning of the negative feedback part 4 to the coupling part 1. The relative movement can be achieved, for example, by approaching the vehicle 7 to the attachment module 8.
    The slide-in body 41 of the add-on module 8 can in this case in particular be formed at least in regions opposite to the centering mount 34. As a result, the insertion body 41 in the fixing position over a large area in the centering 34, whereby, for example, good bending moments between Koppelungsteii 1 and negative feedback part 4 can be transmitted.
    Particularly preferably, it can be provided that the positioning device 3 has a catching device 31, and that the catching device 31 is designed to spend a counter coupling part 4 arranged in a catching region 32 in the fixing position. In this case, it can be provided, in particular, that in the positioning step the counter-coupling part 4 is pulled by the catching device 31 into the fixing position. The catching area 32 is here the area in which the counter-coupling part 4 must be in order to be detected by the catching device 31.
    In this case, provision can be made in particular for the safety gear 31 to have at least one movable tentacle 33. The tentacle 33 may in this case be pivotally mounted and have a hook-shaped end region, which end region engage in a catch receptacle 44 of the counter-coupling part 4, and thereby can pull the counter-coupling part 4 into the fixing position. Here, the catch receptacles 44 may be formed in particular as integrally formed on the insertion body 41 extensions. According to the preferred embodiment, two tentacles 33 can be provided, which are arranged on both sides of the centering receptacle 7. • • • • ··· • ··· • • • • ♦ • • • •: * * 7 ····· • · · · · 34160 / mo.
    Particularly preferably, it can be provided that the catching arm 33 is mounted movably such that the catching arm 33 is first moved in the direction of the centering receptacle 34 during a retraction movement and is subsequently moved in the direction of the first end of the centering receptacle 34. This can be achieved in particular by a link cam system, as shown in FIGS. 1 and 2.
    In Fig. 1 and 2, the safety gear 31 is shown in a receiving position, in which the counter coupling part 4 can be introduced into the capture area. The catching area 32 according to the preferred embodiment comprises those positions of the counter coupling part 4, in which the catch receptacles 44 are arranged between the catching arm in the receiving position and the centering receptacle 34.
    In Fig. 13 and 14, the safety gear 31 is shown in a retraction position, in which the counter-coupling part 4 is arranged in the fixing position.
    The force for the retraction movement can be effected by a hydraulic cylinder 36. As a result of this movement of the catching arm 33, a counter coupling part 4 arranged in the catching area can be pressed by the catching arm 33, even in an oblique starting position, first into a horizontal position relative to the coupling part 1, and then pulled in the direction of the fixing position.
    As shown in FIGS. 3 and 4, it can be particularly preferably provided that the contacting device 6 has a movably mounted docking plate 62, wherein the terminals 61 are arranged on the docking plate 62, and that the docking plate 62 by means of a displacement unit 63 from a first position in a second position is displaceable, wherein in the second position, the connections 61 of the docking plate 62 can be operatively connected to a counter coupling part 4 arranged in the fixing position. Here, in the contacting step, the displacement unit 63 can displace the docking plate 62 with the terminals 61 in the direction of the mating terminals 43, thereby connecting the terminals 61 to the mating terminals 43. This allows a variety of different connections 61 with the 8/26 »« · · ·· ···· ··· ························································ It is possible to connect corresponding counter connections 43 to each other.
    According to the illustrated preferred embodiment can be provided in particular that the displacement unit 63 is formed as a hydraulic cylinder. Alternatively it can be provided that the displacement unit 63 is designed as a spindle drive, linear drive or the like.
    Particularly preferably, it can be provided that the contacting device 6 is arranged in the region of the first end of the centering receptacle 34. Here, in particular in the region of the narrowing first end of the centering receptacle 34, a particularly small clearance of the counter coupling part 4 relative to the coupling part can be achieved, with a particularly reliable connection of the connections 61 with the mating connections 43 being possible in this area.
    The contacting device 6 may in particular have a multiplicity of differently designed connections 61.
    Furthermore, it is provided that the Gegenansehlüsse 43 are arranged on a Gegenandockplatte 45, which is arranged fixed in position relative to the remaining counter coupling part 4.
    In particular, it can be provided that the connections 61 of the contacting device 6 comprise an electrical connection 65, a hydraulic connection and / or a compressed air connection 66. In this case, the attachment module 8 can be operated electrically, hydraulically and / or pneumatically, wherein it can receive the required energy or the required equipment from the vehicle 7.
    Furthermore, it can be provided, in particular, that the connections 61 of the contacting device 6 comprise a PTO output 64 and / or a drive shaft output. A PTO output 64 or a drive shaft output here are couplable connections of a PTO shaft or a drive shaft.
    By means of the connection designed as a PTO shaft drive 64, the attachment module 8 can perform mechanical operations, the required kinetic energy being increased in the course of the time required. The required kinetic energy in the 9/26 ··············································································. · 34160 / mo ·· o ··· ···
    Vehicle 7 is generated and is forwarded by the PTO to the attachment module 8.
    By trained as Antriebweüenabtrieh connection, the attachment module 8 may be formed as an axle module, which provides an additional driven axle for the vehicle 7, whereby, for example, a two-axle vehicle 7 can be converted quickly into a three-axle vehicle 7.
    Furthermore, it can be provided that the attachment module 8 has on one side the counter coupling part 4, to which it can be coupled to the vehicle, and on an opposite side another coupling part 1, to which a further attachment module 8 can be coupled. This allows a particularly flexible modular design of the vehicle 7 can be achieved with a variety of add-on modules 8. This can be particularly advantageous, for example, if the attachment module 8 is designed as an axle module.
    In particular, it can be provided that the contacting device has between 10 and 50 connections.
    According to an advantageous development, provision can be made for terminals 6 to have contacts for control signals. These contacts for control signals can be designed, for example, as a bus system. Such control signals can, for example, directly control valves in the add-on module 8. Furthermore, it can be provided that the attachment module 8 comprises a control unit, which control unit is controlled by the control signals. The advantage of this is that with conventional attachments due to the interface of the coupling system often only one on or off control is possible. By controlling the control unit in this case a controlled and stepless control is possible. Furthermore, the number of connections can be kept low, since only the contacts for the control signals and a supply of energy or resources is sufficient.
    As shown in FIGS. 5 to 7, it can be provided that the fixing device 5 has at least one fixing element 51 with a contact element 52, and that 10/26 • · * * ·. ·: · 34160 / mo · * ♦ · ♦ · · The at least one fixing element 51 has a displaceable, in particular wedge-shaped, one , Fixing bolt 53, which fixing bolt 53 engage behind a contact element 52 resting on the mating contact element 42 of a Gegenkoppelungsteils 4 in the fixing position and can fix it on the contact element 52. In Fig. 1 and 2, the fixing device 5 is shown only incomplete in Fig. 5 to 7, two fixing elements 51 are shown in different states Fixierschrittes. In this case, a particularly reliable and backlash-free fixation of the counter-coupling part 4 on the coupling part 1 can be achieved.
    Here, FIG. 5 shows the fixing device 5 and parts of the counter coupling part 4 during the positioning step. The fixing device 5 is here in the release position.
    Fig. 6 shows the fixing device 5 in the release position, wherein the counter coupling part 4 is in the fixing position. Here come the contact elements 52 and the mating contact elements 42 in contact.
    In the state in Fig. 7, the fixing bolts 53 have been brought into the fixing position, whereby the contact elements 52 and the mating contact elements 42 are kept in contact, and a fixed connection between the coupling part 1 and the counter coupling part 4 is.
    The fixing device 5 may be formed in particular as a three-point or four-point fixation, whereby a reliable rigid fixation can be done.
    In Fig. 12 to 16, a preferred embodiment of a vehicle 7 is shown, wherein the body is not shown with the driver's cab.
    In this case, the vehicle 7 may in particular have at least two axles 74, wherein in the preferred embodiment this is designed as a two-axle vehicle with two axles 74. In particular, both axes 74 can be driven and steered.
    Particularly preferred may be provided that the vehicle 7 has a mid-engine 11/26. · *. And a transmission 76 arranged next to the center motor 73, that the central motor 73 and gear 76 are operatively connected by means of a gear connection 77, and that the center motor 73, gear 76 and gearbox 77 are arranged in a U-shape to each other. The gear connection 77 may be formed, for example, as a belt drive, chain drive or as a chain of gears, which forward the torque from the center motor 73 to the gear 76. The transmission connection 77 and the transmission 76 may in this case form a transmission unit. Due to the advantageous arrangement of the central motor 73 and the transmission 76 in the center of the vehicle, with the U-shaped arrangement, the length of Mittelmötörs 73 together with the gear 76 compared to a total length of the vehicle 7 are low, a particularly compact design can be achieved , Due to this compact design, the vehicle can be achieved even in the arrangement of coupling parts 1 in the front area 71 and in the rear area 72 a total length of the vehicle 7, which does not go beyond the overall length of a conventional comparable vehicle.
    The vehicle 7 may further comprise in particular a centrally arranged PTO shaft 75 and / or a drive shaft, which are operatively connected to the contacting device 6, wherein the torque of the PTO shaft 75 and / or the drive shaft can be forwarded by the contacting device 6 to the attachment module 8.
    The PTO shaft 75 and / or the drive shaft may in particular be operatively connected to the gearbox connection 77, wherein the gearbox connection 77 effectively connects the gearbox 76 with the PTO shaft 75 and / or the drive shaft.
    Furthermore, it can be provided that the chassis of the vehicle 7, in particular hydraulically, is predeterminably height-adjustable, whereby the coupling part 1 can be brought into a suitable height for the mounting module 8 in the method for coupling.
    Particularly preferably, it may be provided that the vehicle 7 has a front area 71 and a rear area 72, and that a coupling part 1 is arranged on the front area 71 and the rear area 72 in each case. Here, the two coupling parts 1 may be formed in particular ident identical to each other. Thereby 12/26 • .. •. •. •. ...... - - 34160 / mo the vehicle 7 can be used for a particularly large number of activities and tasks.
    Furthermore, it can be provided that the coupling part is arranged in the operating position above the axis 74. As a result, tilting of the vehicle can be prevented even with heavy cultivation modules 8 and a particularly good driving behavior can be achieved.
    The add-on module 8 can be designed in many ways. For example, the attachment module 8 can be designed as a tool, for example snow plow, snow blower, road sweeper, mower or the like, which can be firmly coupled to the vehicle 7.
    Particularly preferably, it may be provided that the attachment module 8 has a retractable set-up device 81. By the retractable stand-up device 81, the attachment module 8 can be kept by itself in a position in which the vehicle 7 only has to approach for coupling, for example, to spend the counter-coupling part 4 in the capture area 32. In the coupled state, the set-up device 81 can be retracted so that it does not hinder the further operation. The retractable set-up device 81 may be formed, for example, as a pivotal leg or as a telescopic leg.
    The attachment module 8 may further be formed adapter for conventional trailer hitch systems.
    According to the preferred embodiment of an add-on module according to FIGS. 8 to 16 it can be provided that the add-on module 8 has a three-point power lift with lower links 82, which in particular has a further PTO shaft. In this case, in particular, the retractable set-up device 81 can be designed as two pivotable legs, wherein the attachment module 8 can be placed on the lower links and the legs.
    Claims: 13/26
    权利要求:
    Claims (16)
    [1]


    34160 / mo GIBL Ή

    Dl DR. FERDINAND GIBLER DR DR WOLFGANG POTH Aust 'an and European Patent and Trademark Attorneys PATENT OFFICES PATENT TO PRUCH E 1. Coupling part (1) of a vehicle coupling system (2), characterized in that the coupling part (1) has a positioning device (3). for guiding a counter coupling part (4) into a fixing position in a coupling operation, that a fixing device (5) is movably arranged between a release position and a fixing position, the fixing device (5) fixing a counter coupling part (4) in the fixing position in the fixing position in a fixed position can, and that the coupling part (1) has a contacting device (6) with movably arranged terminals (61), wherein the contacting device (6) in the fixing position of the fixing device (5) the terminals (61) in the direction of a located in the fixing position Gegenkoppelungsteils (4) can move.
    [2]
    2. Coupling part (1) according to claim 1, characterized in that the positioning device (3) has a catching device (31), and that the catching device (31) is formed in a catching area (32) arranged Gegehkoppetüngsteils (4) in the fixing position to spend.
    [3]
    3. coupling part (1) according to claim 2, characterized in that the safety device (31) has at least one movable tentacle (33).
    [4]
    4. coupling part (1) according to one of claims 1 to 3, characterized in that the positioning device (3) has a centering receptacle (34), in which a slide-in body (41) of the Gegenkoppelungsteils (4) can be introduced, and that the Centering receptacle (34) in the direction of a first end centering receptacle (34) of the narrowed.
    [5]
    5. coupling part (1) according to claim 3 and 4, characterized in that the catching arm (33) is mounted so movable that the tentacle (33) at 14/26 ·· ·· ·· ···· ··· • 14 ..... * .................................................. *** *** 34160 / mo of a retraction movement is first moved in the direction of the centering receptacle (34) and then moved in the direction of the first end of the centering receptacle (34).
    [6]
    6. coupling part (1) according to one of claims 1 to 5, characterized in that the contacting device (6) has a movably mounted docking plate (62), wherein the terminals (61) on the docking plate (62) are arranged, and that the Docking plate (62) by means of a displacement unit (63) is displaceable from a first position to a second position, wherein in the second position, the terminals (61) of the AndoCkplatte (62) with a arranged in the fixing position counter coupling part (4) can be operatively connected,
    [7]
    7. coupling part (1) according to one of claims 4 to 6, characterized in that the contacting device (6) in the region of the first end of the centering receptacle (34) is arranged.
    [8]
    8. coupling part (1) according to one of claims 1 to 7, characterized in that the connections (61) of the contacting device (6) comprise a PTO output (64) and / or a drive shaft output.
    [9]
    9. coupling part (1) according to one of claims 1 to 8, characterized in that the connections (61) of the contacting device (6) comprise an electrical connection (65), a hydraulic connection and / or a compressed air connection (66).
    [10]
    10. Coupling part (1) according to one of claims 1 to 9, characterized in that the fixing device (5) has at least one fixing element (51) with a contact element (52), and that the at least one fixing element (51) has a displaceable, in particular wedge-shaped, fixing bolt (53), which fixing bolt (53) on the contact element (52) resting counter contact element (42) of a Gegenkoppelungsteils (4) in the fixing position hihter and reach the contact element (52) can fix.
    [11]
    11. A vehicle coupling system (2) comprising a coupling part (1) according to one of claims 1 to 10 and a counter-coupling part (4), characterized in that the counter-coupling part (4) in the fixing position by the 15/26 ·· ·· · · · ··· · ··· ······ * ............ 34160 / mo Fixing device (5) fixable on the coupling part (1) can be fixed, that the Gegenkoppelungsteil (4) has mating connections (43), and that the contacting device (6) the connections (7) of the coupling part (1) and counter connections (43) of a located in the fixing position Gegenkoppelungsteils (4) can operatively connect.
    [12]
    12. vehicle (7) comprising at least one coupling part (1) according to one of claims 1 to 10.
    [13]
    13. Vehicle (7) according to claim 12, characterized in that the vehicle (7) has a front region (71) and a rear region (72), and that in each case a coupling part (1) on the front region (71) and the rear region ( 72) is arranged.
    [14]
    14. Anbäumodul (8) for a vehicle (7), characterized in that the add-on module (8) has a Gegenkoppelungsteil (4) with mating connections (43) that the Gegenkoppelungsteil (4) on a coupling part (1) of the vehicle (7 ) fixed in position, and that the mating connections (43) with connections (7) of the coupling part (1) are connectable.
    [15]
    15. add-on module (8) according to claim 14, characterized in that the add-on module (8) has a retractable positioning device (81).
    [16]
    16. A method for coupling a vehicle coupling system (2), in particular according to claim 11, wherein in a positioning step, a counter-coupling part (4) in a fixing position of a coupling part (1) is guided, wherein the counter-coupling part (4) in a fixing step of a fixing device (5 ) of the coupling part (1) fixed to the coupling part (1) is fixed, wherein subsequently in a contacting step by a contacting device (6) of the coupling part (1) connections (7) of the coupling part (1) and counter connections of the negative feedback part (4) are operatively connected ,

    16/26
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    DE102010048996A1|2011-05-19|Device for the automatic attachment and locking of a trailer hitch between a towing vehicle and a pulled road vehicle
    WO2019092207A1|2019-05-16|Vehicle-side and accessory-side power take-off shaft connecting device and power take-off shaft connecting unit comprising the two power take-off shaft connecting devices
    同族专利:
    公开号 | 公开日
    CA2908167C|2016-06-14|
    US20160052563A1|2016-02-25|
    WO2014153577A1|2014-10-02|
    CA2908167A1|2014-10-02|
    EP2978299A1|2016-02-03|
    EP2978299B1|2018-09-05|
    PL2978299T3|2019-09-30|
    US9764778B2|2017-09-19|
    EP2978299B8|2018-10-24|
    DK2978299T3|2019-01-02|
    TR201817903T4|2019-01-21|
    ES2699893T3|2019-02-13|
    AT514147B1|2016-01-15|
    HUE041984T2|2019-06-28|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE2900866A1|1979-01-11|1980-07-17|Alois Assfalg|Automatic coupling for tractor hitch - has locating plate for couplings and servo lines|
    DE3009284A1|1980-03-07|1981-09-17|Herbert 8944 Grönenbach Weidle|Automatic coupling for draw bar - has sprung socket around drawbar to complete supply connections|
    DE8215040U1|1982-05-24|1982-07-15|Karl Kässbohrer Fahrzeugwerke GmbH, 7900 Ulm|Vehicle with an implement|
    DE4132889A1|1990-10-05|1992-04-09|Erwin Roeder|Coupling for tractor and ancillary units - has guides in bushes followed by drive coupling engagement|
    FR2687115A1|1992-02-07|1993-08-13|Emily Sa Ets|System for coupling to vehicle and uncoupling from vehicle an accessory with hydraulic or pneumatic control members|
    DE202005005676U1|2005-04-09|2005-08-18|Ringfeder Vbg Gmbh|Device for automated coupling|
    CH701819A1|2009-09-09|2011-03-15|Josef Martin Gmbh & Co Kg|Quick change system for coupling e.g. snowplow to tractor, has power coupling parts that are provided at attachment part and mounting part arranged such that connection points are oriented parallel to direction and to each other|
    US4355945A|1979-12-03|1982-10-26|Ware Machine Service, Inc.|Tool mounting apparatus|
    AT412961B|2003-11-07|2005-09-26|Josef Ing Scharmueller|HEAVY DUTY towing eye|
    US6994511B2|2003-11-21|2006-02-07|Westendorf Manufacturing Co., Inc.|Loader assembly, combination motor vehicle and loader assembly, hydraulic cylinders and methods for operating a loader assembly|
    AT507606B1|2008-11-28|2010-11-15|Josef Ing Scharmueller|FIFTH WHEEL|
    AT507665B1|2009-06-16|2010-07-15|Scharmueller Josef Ing|TRAILER HITCH|
    DE102009056071A1|2009-11-30|2011-06-09|Claas Industrietechnik Gmbh|Coupling for connecting hydraulic lines, has coupling part connected with carrier vehicle and another coupling part connected with former coupling part|
    AT509402B1|2010-02-03|2012-04-15|Josef Ing Scharmueller|FORCED STEERING|
    US8281506B2|2010-02-26|2012-10-09|Caterpillar Inc.|Tool coupler assembly|DE102017126475A1|2017-11-10|2019-05-16|Syn Trac Gmbh|vehicle|
    DE102017126482A1|2017-11-10|2019-05-16|Syn Trac Gmbh|Vehicle-side and attachment-side PTO connection device and a PTO connection device with these two PTO connection devices|
    DE102017126477A1|2017-11-10|2019-05-16|Syn Trac Gmbh|clutch plate|
    DE102017126476A1|2017-11-10|2019-05-16|Syn Trac Gmbh|Docking cradle, docking bay and docking device with a docking cradle and a docking bay|
    法律状态:
    2019-03-15| PC| Change of the owner|Owner name: SYN TRAC GMBH, AT Effective date: 20190211 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA228/2013A|AT514147B1|2013-03-25|2013-03-25|coupling part|ATA228/2013A| AT514147B1|2013-03-25|2013-03-25|coupling part|
    PL14719182T| PL2978299T3|2013-03-25|2014-03-25|Coupling part|
    ES14719182T| ES2699893T3|2013-03-25|2014-03-25|Coupling part|
    PCT/AT2014/000051| WO2014153577A1|2013-03-25|2014-03-25|Coupling part|
    US14/779,871| US9764778B2|2013-03-25|2014-03-25|Coupling part|
    DK14719182.9T| DK2978299T3|2013-03-25|2014-03-25|coupling|
    EP14719182.9A| EP2978299B8|2013-03-25|2014-03-25|Coupling part|
    HUE14719182A| HUE041984T2|2013-03-25|2014-03-25|Coupling part|
    CA2908167A| CA2908167C|2013-03-25|2014-03-25|Coupling part|
    TR2018/17903T| TR201817903T4|2013-03-25|2014-03-25|Coupling Part|
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