COUPLING DEVICE FOR A LOWER LINK OF A THREE-POINT LINKAGE

Abstract

A coupling device for a lower link of a three-point linkage, including a coupling body with a catch hook for receiving a coupling element along a defined receiving direction, the coupling element being designed to complement a fastening region of the catch hook, and also including a locking mechanism with a locking latch, which is urged by a spring force into a locking position, in which the catch hook is locked, in which case a coupling element to be received by the fastening region can be arrested in the catch hook. The locking latch here is longitudinally displaceably mounted in a sliding guide, provided on the coupling body, such that it can be deflected out of the locking position exclusively perpendicularly to the defined receiving direction, thereby clearing the fastening region.

Claims

1.-13. (canceled)

14. A coupling device for a lower link of a three-point linkage, comprising: a coupling body with a catch hook for receiving a coupling element along a defined receiving direction, the coupling element being of complementary design to a fastening region of the catch hook; and a locking mechanism with a locking latch, which is urged by a spring force into a locking position, in which the catch hook is locked, in which case a coupling element to be received by the fastening region can be retained in the catch hook; wherein the locking latch is mounted in a longitudinally movable manner in a sliding guide, provided on the coupling body, in such a way that it can be deflected out of the locking position exclusively perpendicularly to the defined receiving direction, thereby clearing the fastening region, whereas the locking latch, when in the locking position, projects more than half way beyond the fastening region in the defined receiving direction, thereby performing a locking function.

15. The coupling device of claim 14, wherein a flat contact contour, which faces the fastening region and, in particular, runs parallel to the deflection direction of the locking latch, is formed on the locking latch.

16. The coupling device of claim 15, wherein a projection, which fits over the fastening region, is provided along the flat contact contour.

17. The coupling device of claim 14, wherein a concave contact contour, which faces the fastening region and corresponds, in particular, to an outer curvature of a coupling element to be received, is formed on the locking latch.

18. The coupling device of claim 14, wherein the locking latch is bevelled in such a way at an end lying in the receiving direction that it can be urged into a coupling position which clears the fastening region when the coupling ball is introduced.

19. The coupling device of claim 14, wherein the sliding guide is formed within a housing provided on an upper side of the coupling body.

20. The coupling device of claim 19, wherein the housing has an access opening (100), which can be closed via a removable maintenance cover.

21. The coupling device of claim 19, wherein mutually aligned bores for receiving a securing bolt extend through opposing cheeks of the housing in such a way that a deflection of the locking latch out of the locking position can be blocked by means of the securing bolt.

22. The coupling device of claim 19, wherein a drainage opening (106) for drainage of liquid is formed in the housing.

23. The coupling device of claim 14, wherein the sliding guide has an elastic stop element for limiting a longitudinal movement of the locking latch in the direction of the locking position.

24. The coupling device of claim 14, wherein a pull lever is attached to the locking latch, by means of which the locking latch can be deflected manually out of the locking position by the operator.

25. The coupling device of claim 24, wherein a latching device, by means of which the locking latch can be retained in a coupling position which clears the fastening region, is formed on the pull lever.

26. The coupling device of claim 24, wherein an eye for attaching an actuating cable is provided in an end region of the pull lever.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] The coupling device according to the disclosure for a lower link of a three-point linkage is explained in more detail below with reference to the attached drawings. Here, identical reference signs relate to corresponding components or components which are comparable with respect to their function. In the drawings:

[0027] FIG. 1 shows a sectional view of one example embodiment of the coupling device according to the disclosure with a locking latch, which is in a locking position, in which a catch hook is locked;

[0028] FIG. 2 shows a detail view of a coupling element in the form of a coupling ball situated in the catch hook;

[0029] FIG. 3 shows the coupling device shown in FIG. 1, in which the locking latch is deflected into a coupling position which releases the catch hook; and

[0030] FIG. 4 shows the locking latch shown in FIG. 3, which is retained via a latching device in the coupling position, in which it releases the catch hook.

DETAILED DESCRIPTION

[0031] FIG. 1 shows one example embodiment of the coupling device according to the disclosure.

[0032] The coupling device 10 comprises a coupling body 12 with a catch hook 14 for receiving a coupling element 18 of complementary design to a fastening region 16 of the catch hook 14 along a receiving direction 20 defined by the opening path of the catch hook 14 in the fastening region 16. The coupling body 12, which is produced as a steel forging, is welded on in an end region 22 of a conventional lower link 24, which is part of a three-point linkage (not shown) of an agricultural tractor. To be more precise, the three-point linkage has left and right lower links 24, which run symmetrically with respect to one another and are each equipped with the coupling device 10 illustrated in FIG. 1.

[0033] According to the example, a coupling element 18 designed as a coupling ball 26 is situated in the fastening region 16, which coupling element 18 is surrounded by an attachment interface (not shown) of a tilling implement, such as a plough, a harrow or a sowing machine, or of a supported attachment in the form of a fertilizer spreader, a sprayer linkage or the like.

[0034] Furthermore, the coupling device 10 has a locking mechanism 28 with a locking latch 30 composed of hardened steel. The locking latch 30 is urged by the action of a spring force into a locking position 32, in which the catch hook 14 is locked, ensuring that the coupling ball 26 situated in the fastening region 16 is retained in the catch hook 14.

[0035] The locking latch 30 is mounted in a longitudinally movable manner in a sliding guide 34 provided on the coupling body 12 in such a way that it can be deflected out of the locking position 32 exclusively perpendicularly to the defined receiving direction 20, thereby clearing the fastening region 16. As can be seen in FIG. 1, the locking latch 30, which is in the locking position 32, projects more than half way beyond the fastening region 16 in the defined receiving direction 20, thereby performing a locking function. If, as here, the coupling element 18 is configured as a coupling ball 26, this means that the locking latch 30 extends beyond the apex 38, which faces the locking latch 30 in the receiving direction 20.

[0036] In addition, a concave contact contour 38, which faces the fastening region 16 and corresponds to an outer curvature of the coupling ball 26 situated in the fastening region 16, is formed on the locking latch 30. When the coupling ball 26 is in contact with the concave contact contour 38, pushing open of the locking latch 30 by the coupling ball 26 is blocked by the rising flank 40 of the concave contact contour 38.

[0037] In accordance with the detailed illustration in FIG. 2, the coupling ball 26 has a certain bearing play ?d within the fastening region 16. This is of the order of 2 to 3 millimeters. This makes possible contamination-tolerant positive engagement between the coupling ball 26 and the locking latch 30, which ensures problem-free opening and closing of the locking mechanism 28 even under adverse circumstances.

[0038] In an alternative embodiment (not shown) of the coupling device 10, the concave contact contour 38 is omitted, the locking latch 30 thus forming a flat contact contour which faces the fastening region 16 and runs parallel to the deflection direction 42 of the locking latch 30. As an option, a projection, which fits over the fastening region 16, can additionally be provided along the flat contact contour as a mechanical obstacle.

[0039] The locking latch 30 is bevelled in such a way at an end 44 lying in the receiving direction 20 that it is urged into a coupling position 46 which releases the catch hook 14 or clears the fastening region 16 when the coupling ball 26 is introduced. This state is shown in FIGS. 3 and 4. As soon as the coupling ball 26 has assumed its final position, the locking latch 30 automatically returns to its locking position 32 under the action of the restoring spring force. In this way, a snap lock is achieved, which makes it possible to carry out the coupling process with an attachment interface in a particularly convenient manner.

[0040] The sliding guide 34 is formed within a housing 50 provided on an upper side 48 of the coupling body 12. The sliding guide 34 is a shaft-shaped recess 52 extending in the housing 50, in which the locking latch 30 is guided in a longitudinally movable manner along a slide-shaped section 54.

[0041] As a protection against damage to the locking mechanism 28, the sliding guide 34 has an elastic stop element 56 for limiting a longitudinal movement of the locking latch 30 in the direction of the locking position 32. The elastic stop element 56 is an elastomer strip 60 inserted into an internal housing groove 58, against which strip the locking latch 30 bears in the locking position 32 via a projection 62 provided on the slide-shaped section 54. The compressibility of the elastomer strip 60 is dimensioned in such a way that it keeps the projection 62 out of contact with the adjacent housing section in the locking position 32. In this respect, the locking latch 30 is clamped or supported in a floating manner in the locking position 32 by the action of the restoring spring force.

[0042] The housing 50 has a box-shaped configuration and is an integral part of the coupling body 12. To be more precise, the integral design is limited to a housing shell 64 which is formed on the coupling body 12, is open to the side and is covered by welding on a separate housing cover 66.

[0043] The housing cover 66 is only indicated in part in FIGS. 1, 3 and 4 in order not to conceal the components of the locking mechanism 28 situated thereunder. Both the coupling body 12 and the housing 50 are produced as steel forgings.

[0044] As can be seen in the sectional view of FIG. 1, the spring force is built up via a helical compression spring 68, which is received with a first end 70 in a blind hole 72 formed on an inner side of the locking latch 30 and is supported with a second end 74 on a maintenance cover 76 of the housing 50. A guide rod 78, which is attached to the maintenance cover 76, runs within the compression spring 68 and ensures that the compression spring 68 is compressed without kinking when the locking latch 30 is moved in the direction of the coupling position 46.

[0045] Furthermore, a pull lever 80 is attached to the locking latch 30, via which the locking latch 30 can be deflected manually out of the locking position 32 by the operator. This operating state is reproduced in FIG. 3. For this purpose, the pull lever 80 or a hand piece 82 formed thereon extends outward through an outlet opening 84 provided in the maintenance cover 76.

[0046] A latching device 86, via which the locking latch 30 can be retained in the coupling position 46, is formed on the pull lever 80. The latching device 86 is a step-shaped recess 88 which is formed along the pull lever 80 and can be hooked in an edge 90 of the outlet opening 84 on the maintenance cover 76. This operating state is shown in FIG. 4.

[0047] Furthermore, the sequence of the coupling process can be seen in FIGS. 3 and 4 in that the coupling ball 26 is inserted into the catch hook 14 when the locking mechanism 28 is open. The catch hook 14 has a jaw-shaped receiving region 92 for centering the coupling ball 26, which region subsequently merges into the actual fastening region 16. As already mentioned, the coupling ball 26 is of complementary design to the fastening region 16, apart from a predetermined bearing play ?d. Owing to the opening path of the catch hook 14 in the fastening region 16, the coupling ball 26 is guided along the defined receiving direction 20.

[0048] In order to implement a simple type of remote control, an eye 94 with an actuating cable 96 attached thereto is provided in an end region of the pull lever 80. The actuating cable 96 runs in the direction of a hinged rear window of a driver's cab of the agricultural tractor, allowing convenient actuation of the locking mechanism 28 by the operator without leaving the driver's cab.

[0049] After the removal of a plurality of clamping sleeves 98, the maintenance cover 76 can be removed and in the process exposes a rear access opening 100, which makes it possible to replace the locking latch 30, together with further components of the locking mechanism 28, inter alia the compression spring 68, the pull lever 80 and the elastomer strip 60, in the event of wear or a defect. The locking mechanism 28 is situated in the housing 50 as an insert that can be pulled out along the sliding guide 34, and it can be removed as a whole through the access opening 100 when the maintenance cover 76 is removed.

[0050] Mutually aligned bores 102 for receiving a securing bolt (not shown) extend through opposing cheeks of the housing 50 in such a way that a deflection of the locking latch 30 out of the locking position 32 can be blocked via the securing bolt. When the securing bolt is inserted through the bores 102, it rests against the rear end 104 of the locking latch 30 and prevents it from moving out of the locking position 32. The securing bolt is usually a screw which, after being inserted, can be secured at its open end protruding from the housing 50 via a nut.

[0051] In addition, a drainage opening 106 for drainage of liquid is formed in the housing 50 to drain off water that penetrates into the locking mechanism 28.