DE1057808B - Lifting mechanism for an agricultural implement attached to the lifting gear controlled by the tractor's power lift - Google Patents

Description

GERMAN

The invention relates to a lifting mechanism for an agricultural implement pulled by a tractor carries a liftable tillage tool and to the one controlled by the tractor's power lift Lifting rods, the well-known three-point hitch, can be attached.

On the one hand, the invention aims to develop a simple lifting mechanism that by actuation of the power lift causes the work tools to be lifted relative to the device frame.

On the other hand, a lifting mechanism is sought which acts so that the working depth of the ground tools is not or not significantly affected when the device is opposite the tractor moves in the vertical direction, as z. B. is the case when driving over bumpy ground.

According to the invention is therefore a lifting mechanism on an agricultural implement, which is attached to the one from the power lift Agricultural tractor-controlled lifting rods can be attached, and a support arm for the Contains soil cultivation tool, which is relative to the device frame between a working position and can be raised and lowered in a transport position, the arable implement containing a lifting beam, which is a rigidly protruding component of this frame from the device frame and is articulated to the Lifting linkage of the tractor is connected, while a linkage is attached to the frame of the agricultural implement connects to the tool support arm in order to raise and lower it, with the lifting beam mounted in this way Attack member provided that both parts form a kind of scissors, and that the attack member on the one hand can be connected to the lifting linkage for the tillage tool and on the other hand is articulated with a control strut, which in turn is articulated on the tractor in such a way, that the scissors are opened by raising or lowering the lifting beam by means of the power lift of the tractor or closed and by this movement the excavation or insertion of the soil cultivation tool is effected.

Accordingly, when the tool carrier is lowered into its working position, when it is switched on of the power lift to operate the tractor's lifting linkage, the lifting beam of the device is tilted upwards, while the attack member is forced to swing down a little so that between the walking beam and the attack member undergoes a noticeable scissor-like pivoting movement, the effect of which consists in the lifting linkage for lifting the tool support arm of the soil cultivation tool to force.

An embodiment of the invention is illustrated in the drawings.

Lifting mechanism for one to the from
Power lift of the farm tractor
controlled lifting linkage attached arable implement

Applicant:

Massey-Harris-Ferguson Inc.,
Racine, Wis. (V. St. A.)

Representative: Dipl.-Ing. F. Thieleke, patent attorney,
Braunschweig, Wendentorwall 1 a

Claimed priority:
V. St. v. America February 25, 1957

Leonard Max Krause, Willowdale, Toronto (Canada), has been named as the inventor

Figures 1 and 2 are side views of the lifting mechanism in a tractor hitched drill; the first time in the working position and the second time in the transport position;

Fig. 3 is the associated plan view;

FIG. 4 is an enlarged section taken on line 4-4 of FIG. 1.

The tractor 10 has a pair of rear drive wheels 12 (of which the one in front of the viewer is to be thought removed) and a tractor lifting linkage with a pair of laterally spaced lower links 14, 15, the front ends at 17 on the tractor housing 16 are articulated in universal joints. These links can be moved in the vertical direction by a hydraulic power lift, which acts in a known manner with its lifting arms 18 and lifting rods 19 on the links. The usual drawbar 22 is connected to the rear ends of the links 14, 15 in ball joints.

A control strut 24 extends in the center plane of the tractor from an upper point 106 between the links 14 and 15 to the rear and below; In the side view of FIGS. 1 and 2, this control strut intersects with the lower links 14. 15. At the rear end of the control strut 24 is a

909 527/131

FCball 26 is firmly screwed on with a bolt 28. This ball is one part of a swivel joint in which the control strut 24 is connected to the front end 30 of the attack member 32 . The drawbar 22 and the ball 26 lie one above the other in the same vertical plane when the council according to FIG. 1 is in its working position.

The control strut 24 and the attack member 32 play an important role in the invention, as will be explained further below.

As a seed drill, the device shown is a wide vehicle. It has a main frame 31 with two large ground wheels 33 and a forwardly projecting lifting beam 34 which forms a rigid part of the frame. The tillage tools are laterally spaced rotatable disks 36 which are mounted on the rear ends of support arms 38. These discs make furrows in the soil to pick up the seeds. The support arms 38 are pivotably mounted on the frame about pins 39 and can be moved up and down by a pivot shaft 40 , each with a pivot arm 41 fixed thereon, via a connecting member 42 between pivot arm 41 and tie rod 38 . The pivot shaft 40 is rotatably mounted on the main frame in laterally spaced bearings 44. Two arms 46 are rigidly attached to the pivot shaft 40 by means of U- bolt clamps 47 at a lateral distance. One of the two forward pulling rods 48 is articulated to each of the arms 46 by means of pegs 49. The walking beam 34 consists of two forward-converging angle irons 50 and 51 which are screwed to the main frame 31 at 52 , and of two central angle irons 54, 55 which are screwed to the main frame at 56 and 57. The front ends of the converging angles 50, 51 are welded at the points 58 and 59 to the middle angles 54, 55 , so that a rigid beam construction is created. An inverted U- shaped bracket 60 is welded to the front ends of the central brackets 54, 55 , through which a horizontal hinge pin 61 is inserted. This pin is firmly connected to an upright cylinder 62 through which an almost vertical lifting pin 63 is guided; this passes through the drawbar 22 and is axially secured by a cross wedge 64. In this way, a universal joint has been created which connects the drawbar 22 to the lifting beam 34 via the hinge pins 61, 63. The arable implement can thus swing freely to the side with respect to the tractor about the joint 61 when it follows the bumps in the ground, and it can also pivot about the joint 63 when the tractor drives through curves or turns.

The lever that forms the engagement member 32 is in the form of a large angle lever; it consists of two parallel plates or cheeks 66, 67 which are fastened between their ends on a long hinge pin 68; this itself is mounted in two parallel connection plates 70, 71 which are welded to the central angle iron 54, 55 of the frame, as shown in FIG. It can thus be seen that the engagement member 32 is a two-armed lever which is mounted between its ends on the lifting beam 34 , the hinge pin 68 forming the axis of rotation of the lever.

A bearing 72 between the front ends of the lever cheeks 66, 67 engages around the ball 26; In this way, the front end of the engagement member 32 is connected to the lower end of the control member 24 in a universal joint. At both ends of the hinge pin 68 are pivot arms 74, 75, the

are connected at their upper end by a pin 76 which passes through them and through the front ends of the tie rods 48 . Nuts 77 on pin 76 hold parts 48, 74 and 75 together. Two large coil springs 79, SOsind connected at its rear end by coupling 81 with the pivot shaft arms 46, its front end at angles of 83, hooked 84 which are welded to the HubbalkenwinkeI-iron 50, 51st Eyebolts 85, the

ίο go through the angles 83, 84 and are held by nuts 86 , are used to regulate the tension in the springs 79, 80. The springs exert a downward pressure on the disks 36 , which holds them in the ground. A long hand crank 88 for depth adjustment, which can be turned from the driver's seat, makes it possible to regulate the limit to which the discs 36 can be lowered by the action of the springs 79, 80, i.e. the greatest working depth of the discs . The crank 88 has pivot pins on a bearing 89 between the upper ends of cheeks 90, 91 which are welded to the frame brackets 54, 55. A shackle 92 includes the pivot pin 76; a nut thread 93 at its end receives the threaded end 94 of the crank 88 . By turning the crank 88 , the tractor driver swivels the arms 74, 75 about their pivot pin 68; This causes rotation of the pivot shaft 40. A rotation of the pivot while according to FIG. 1 in a counter-clockwise direction due to the pull of the support arms 48 reduces the depth of penetration of the discs 36 into the soil, while a clockwise rotation of the pivot shaft in the clockwise direction by slacking of the support arms 48 and the Train the springs 79, 80 allows the discs to penetrate deeper into the ground.

In all working positions, the disks are free to lift against the tension of the springs, because a dead gear is provided for the connection between the shackle 92 and the hinge pin 76 , as can be seen from FIG.

The angle lever cheeks 66, 67 forming the engagement member 32 have upwardly curved rear ends 95, 96 which can bear against the hinge pin 76 in order to move it in the shackle 92 if a relative pivoting occurs between the engagement member 32 and the walking beam 34 ; in this case the pivot shaft 40 will rotate. Such a relative rotation can be caused by the lifting of the handlebars 14, 15 and the drawbar 22 when the hydraulic power lift 18, 19 of the tractor comes into operation. The relative movement then takes place around the hinge pin 68. In other words: the engagement member 32 and the lifting beam 34 act like scissors, as a result of which the distance between their front ends can change.

Fig. 1 shows the discs 36 lowered in their working position. The forward pull of the tractor arms 14, 15 and the drawbar 22 keeps the front ends of the walking beam 34 and the engagement member 32 close to one another. As shown, they are kept separated from one another by a stand 97 which is welded at the connection point 98 between the cheeks 66, 67 and at the contact point 99 lies against the lifting beam 34 ; that is, the stand 97 temporarily acts as a strut.

In .dem the case that the tractor pulls the device over uneven ground, so that the lifting beam 34 swings up and down relative to the lifting rod 14, 15 , there is little or no pivoting movement between the lifting beam 34 and

Claims (9)

For example, when the device swings downward, the attack member 32 tends to swing counterclockwise with respect to the walking beam 34, but such movement is prevented by the bracing action of the stand 97 as it supports parts 32 and 34 as in FIG held together by a rigid framework. In this way, no movement of the lifting linkage 42 ... 48 of the soil cultivation implement will occur, and the discs 36 will not rise relative to the main frame 31. If, on the other hand, the device swings upwards, the parts 32, 34 could again swing with the device like a rigid framework, or instead the engagement member 32 could swing a little clockwise relative to the walking beam 34. In this case, when the upwardly bent ends 95, 96 hit the pin 76, they can force the lifting rods 42 ... 48 to lift the panes; however, this movement would be so small that it would be negligible. The agricultural implement will always be free to swing out to the side of the tractor because the ball joint 26 and the joint 63 are approximately perpendicular to one another. In order to lift the discs out of their working position for soil cultivation, in which they are shown in FIG. 1, so that they pass into the transport position of FIG raised. As a result, the lifting beam 34 rises and the engagement member 32 and the control member 24 both swing about their joints 68 and 106 downwards. The relative pivoting between the engagement member 32 and the walking beam 34 brings the bent-up ends 95, 96 to lie against the pin 76 and move it. This has the consequence that the lifting linkage 42 ... 48 lifts the disks 36 relative to the main frame 31. If you want to uncouple the device from the tractor, you raise the drawbar 22 in its highest position. A sturdy pin 102 carried on the frame (Fig. 3) is inserted through holes 104 in the walking beam angles 54, 55 with the bent-up ends 95, 96 of the angle of attack lever lying in front of these holes. This locks the walking beam and engagement link together by completely separating their forward ends, and so the discs 36 are held in their raised position. At this stage the drawbar 22 is lowered a little; this relieves the load on the control strut 24 and allows the hinge pin 106 to be pulled out and the control strut 24 to be removed from the tractor. The drawbar 22 is then further lowered until the stand 97 rests on the ground. The hinge pin 63 is then removed in order to separate the walking beam 34 from the drawbar. Obviously, a simple and effective lifting mechanism has been created by the invention, which uses the normal three connection points of the usual three-point hitch and the normal drawbar of the tractor. The lifting connection takes place as usual on a cantilever beam on the arable implement. The main additional parts are only the engagement member 32 and the control strut 24, which regulates the angular relationship to the lifting beam 34. It should be noted that in the working position of the device the frame 31 is inclined downwards and forwards, while in the transport position it is practically horizontal. This has the advantage that, in the transport position, the tillage tools are higher than usual, so that they have greater ground clearance. Patent claims: 1. Lifting mechanism for an agricultural implement, which can be attached to the lifting linkage controlled by the power lift of an agricultural tractor and which contains a support arm for the soil cultivation tool, which can be raised and lowered relative to the implement frame between a working position and a transport position, the agricultural implement containing a walking beam , which is a rigidly protruding part of this frame from the implement frame and is articulated to the lifting linkage of the tractor, while a linkage connects the frame of the agricultural implement to the implement support arm in order to raise and lower it, characterized in that on the lifting beam ( 34) an engagement member (32) is mounted in such a way that both parts form a kind of scissors, and that the engagement member on the one hand with the lifting rod (42 ... 48) for the soil cultivation tool (36) can be in connection and on the other hand with a Control strut (24) is articulated, which in turn on the Schlep is articulated in such a way that the scissors are opened or closed by lifting or lowering the lifting beam (34) by means of the power lift of the tractor and this movement causes the excavation or insertion of the tillage tool (36). 2. Lifting mechanism according to claim 1, characterized in that the lifting linkage (42 ... 48) for the soil cultivation tool (36) is under the action of springs (79, 80) which urge it into its working position, and that the engagement member ( 32) can come into engagement with this linkage (42... 48) in such a way that the latter moves against the spring action towards its transport position (FIG. 2). 3. ITub mechanism according to claim 1 or 2, characterized in that the engagement member (32) is a two-armed lever which is rotatably supported between its ends (at 68) on the lifting beam (34) and which at one end (67) with the control member (24) is articulated and at its other end (95, 96) can come into engagement with the lifting rod (42... 48) of the soil cultivation implement. 4. Lifting mechanism according to claim 1, 2 or 3, characterized in that the engagement member (32) has a one-way connection (76 and 95, 96) with the lifting rod (42 ... 48) of the soil cultivation tool, which has a Retraction of this linkage from its engagement with the engagement member against the transport position allows, and that the device frame (31) carries a device (88) for adjusting the working depth of the tillage tools, through which the lifting linkage can be retracted, and the extent by which the tool support arm ( 38, 42) can be lowered by the lifting rod (42 ... 48) is limited. 5. Lifting mechanism according to claim 3, characterized in that the adjusting device is a manually rotatable screw (88, 94) which leads from the lifting beam (34) to the seat of the tractor driver and is screwed into a shackle (92, 93) which is in engagement with a component (76) on the lifting rod (42 ... 48) for the soil cultivation tool. 6. Lifting mechanism according to claim 1 and 5, characterized in that the component (76) on which the shackle (92) engages is a pin (76) which is movable along the shackle and can act on the engagement member (32) , and that the pin (76) is carried by an arm (74) which is pivotably mounted in the pivot point (68) of the actuating lever (32). 7. Lifting mechanism according to one of the preceding claims, characterized in that a strut (97) is inserted between the engagement member (32) and lifting beam (34) , which the two parts in the working position (Fig. 1) of the work- bearer apart like a rigid framework. 8. Lifting mechanism according to one of the preceding claims, characterized by a device (102, 104) for mutual locking of the lifting beam (34) and the engagement member (32) in the transport position (Fig. 2). 9. Lifting mechanism according to one of the preceding claims, characterized in that the lifting beam (34) has a universal joint (60 ... 64) for its connection to the tractor lifting linkage (14, 15) and that the engagement member (32) and the Control member (24) are connected to one another by a universal joint (26, 28, 72) which lies approximately perpendicularly below the other universal joint (60... 64) . 1 sheet of drawings © 909 527/131 5.59