NO118010B - - Google Patents

Description

Hydraulic system of a plow with one or

several cuts.

The present invention relates to a plow intended for

to be coupled to a towing vehicle, and in which plow the plow bodies are pivotably arranged on the respective plow arm to be folded or opened up independently of each other upon impact with an earth-fixed obstacle, during which this swinging movement must be dampened by the impact of an arranged for each plow body hydraulic cylinder, which is part of the hydraulic system, as the cylinder cooperates with a pressure vessel which is also part of,

in said system.

With previously known plows of this type, it has been shown that the plow bodies do not lie still during ploughing, but depending on the conditions on the ground, rise and lower vertically. If only one plow body is subjected to such a movement, with the known ploughs, the other plow bodies will also be affected, which results in uneven ploughing. This is particularly apparent with plows of the type that are equipped with a front. each plow body arranged, so-called disc harrow, which is firmly connected to the plow arm, on which the plow body is arranged. When the disc harrow collides with an earth-fixed obstacle, the entire plow is lifted and subjected to great stress underneath, which causes the plow to be easily damaged. The disc grate is therefore particularly vulnerable. The present invention, which aims to eliminate these and other disadvantages of plows of this type, is mainly characterized by the fact that each plow arm is vertically pivotably attached to the plow frame and that the hydraulic cylinder is connected to the plow frame at its forward end in the direction of travel , so that also the plow arm, to which the plow body is pivotably attached, is under the influence of said cylinder for damping the upturning movement of the plow arm and for returning the plow arm. The present invention shall be described in more detail with reference to the attached drawings. Fig. 1 shows a section through the hydraulic system arranged on a plow arm. Fig. 2 is a section through a detail of the hydraulics

system on an enlarged scale.

Fig. 3 is a section through a detail of the hydraulic system on an enlarged scale. As the conditions are identical for all plow bodies, only one plow body is shown.

On the plow arm 1, which consists of two beams arranged at a distance from each other, and which by means of the pin 2 is pivotally mounted between two parallel beams 3, a plow body 4 with its associated plow drawbar 5 is pivotally mounted about an axle 6 Furthermore, a so-called disc grate 7 is releasably arranged on the arm, 1. On the plow drawbar there is arranged a fixed console 8, which at its upper end by means of an axle pin 9 is articulated with a piston rod 10 for the hydraulic cylinder 12. This end of the cylinder facing the piston rod is pivotally mounted on a the beams 3 arranged console 13, so that the cylinder in the plough's normal working position extends preferably parallel to the plow arm 1 and underneath is arranged to hold the plow arm 1 and the plow body 4 in working position. It is also possible to arrange the cylinder 12 so that it leans against the arm 1.

A hole is made in the end piece 14 of the cylinder

15, which is connected via a channel 16 to the cylinder space, and via a flexible line 17 to the pressure vessel 18. A connection 19, on which the line 17 is placed, is threaded a bit into the hole 15, and between the connection 19 and the channel 16 is arranged in the thus formed cavity: a ball 20 with a supporting diameter, than the channel 16. The position of the ball in relation to the channel mouth can be adjusted by means of an adjustment screw 21, which is screwed into a threaded hole arranged in the end piece 14. The ball 20 rests on one end of the adjusting screw, which should be provided. a rounding adapted to the curvature of the sphere. With the aid of the setting screw 21, it is thus possible to change the position of the ball in relation to the channel mouth for regulating the flow opening for the liquid flowing into the cylinder. The setting screw 21 is locked in the desired position using the nut 22.

So that the ball 21 does not obstruct the liquid flow from the cylinder 12 to the pressure vessel 18 during the swing of the plough,

is occupied. a number of tracks in the connection 19, as can be seen from fig. 2.

The line 17 connected to the connection 19 is connected at its other end to a main tap 24, which is arranged for closing the pressure container 18, in which the pressure exerted on the liquid is provided by a compressed gas above the surface of the liquid in the container. e.g. air, which is introduced when charging the system, through the schematically shown valve 26. The pressure vessel 18 is also provided with a pipe 27, which opens

out near the bottom of the container. Said pipe 17 is placed airtight at the upper end of the pressure container, so that leakage of air from the container is completely excluded. Any air bubbles that may have formed in the line 17 or in the cylinder after a repair of the system, or after the introduction of air into it, will be carried to the container by movement of the oil in the system.

In connection with the main crane 24, a valve 28 is arranged, which partly serves to prevent the hydraulic system from being overloaded and partly enables a connection of the hydraulic system with the towing vehicle's hydraulic system, e.g. for topping up, for example, of oil from the towing vehicle's oil container.

In the valve housing 29, which has three connections 30-32, a spring 33 is clamped, which presses the valve body 34 against the end 35 of the connection 30, so that a complete seal between them is achieved under normal working conditions. It is appropriate to arrange a sealing member at the end 35 and/or the valve body 34. The valve body is provided with a through center hole 36, which at its ends has a smaller diameter than the part lying between them. In this part of the central hole, a spring 37 is arranged, which presses the ball 38 against a valve seat 39. The force which the spring 37 exerts on the ball 38 is relatively small, but sufficiently large that a good seal is achieved between the ball 38 and the seat 39.

Thus, when liquid is pumped from the towing vehicle, the ball 38 is displaced against the action of the spring to the left in fig. 3, and liquid can flow into the system. Under normal conditions, however, the liquid is prevented from flowing in the opposite direction, i.e. to the right of fig. 3, but if an overpressure occurs in the system that is greater than the force with which the spring 33 presses the valve body 34 against the end 35, then this will be displaced to the right in fig. 3 and the liquid can flow out through the holes 40 and an overload of the system is prevented.

In order for the plow body 1 to be lifted up by hand,

a line 41 is arranged, which is connected via the pressure vessel and the valve mechanism, which line is equipped with a tap 42. When the tap 42 is opened, liquid can freely flow out into the valve housing and the pressure is lowered, which can be read on a flexible line 17 arranged pressure gauge 43.

The hydraulic system is charged by first introducing a suitable compressed gas, e.g. air through the valve 26, after which oil from the towing vehicle with the help of its pump is pumped via the valve 28 into the system until the desired pressure is achieved. The magnitude of the pressure is adjusted so that the moment that seeks to turn the plow body into the working position is somewhat greater than the moment that seeks to turn it from the working position, and which is dependent on the prevailing conditions on the field.

When the plow body hits an earth-fixed obstacle,

the latter moment is increased so that the plow body is rotated about the shaft 6 and thereby the piston rod 10 with the piston 11 is displaced to the right in fig. 1. Below, part of the liquid that is in the cylinder 12 is forced out from it and through the line 17

into the pressure vessel, where the air is compressed, and the pressure consequently rises in the entire system, thus also in the other cylinders, which are connected by means of flexible lines to the pressure vessel 18 in the same way as the cylinder 12 and arranged on the respective plow arm, by the impact of the valve mechanism arranged in the end pieces.

With such a swinging movement of the plow body and/or when the disc grate 7 hits an obstacle, the arm 1 turns about the shaft 2, during which the swinging movement of the arm is dampened by the action of the cylinder. If only the disc 7 hits an earth-fixed obstacle, so that the arm 1 is turned towards the shaft 2, the piston rod with the piston 11 will be displaced to the right in fig. 1 against the effect of the pressure.

By arranging the cylinder in this way on a pivoting arm that carries the plow body, the other parts belonging to the plow bodies are prevented from being affected, i.e. are raised or lowered in relation to their working position.

After the obstacle has been passed, the moment that seeks to drive the plow body to the working position is sufficiently large to perform this turning movement of the plow body. In order for this not to happen too violently depending on the elevated pressure in the system, the liquid flow from the pressure vessel 18 will be slowed down when passing past the ball 20, which for this purpose is set in such a way that a suitable through-flow opening is at hand. The return of the plow body 4 to the working position will then take place continuously, and violent movements that could cause damage to the plow are eliminated.

When the plow body is to be lifted up for repair or after ploughing, the main cock 24 is closed, after which the cock 42 on the line 41 is opened, so that the oil can flow to the towing vehicle's oil tank, from which the oil, after said cock has been closed, can be pumped back through the valve 28. It is appropriate to arrange said crane and also the pressure vessel 18 on the towing vehicle in such a way that the driver from the driver's seat can easily open and respectively close partly the crane 42 and partly the pressure vessel's main crane 24. It is also possible to arrange these parts of the hydraulic system on the plow itself.

Claims (4)

1. Single- or multiple-cut plow preferably intended for connection to a towing vehicle, in which plow each plow body with its plow drawbar is pivotably arranged by a plow arm connected to the plow frame, preferably provided with a disc grate, and as each plow body is under the influence of a hydraulic cylinder connected to a hydraulic system for damping the tilting movement of the plow body when it hits an earth-fixed obstacle and for returning the plow body to the working position after the obstacle has been passed, characterized in that each plow arm (1) is vertically pivotably attached to the plow frame (3) and that the hydraulic cylinder at its forward end in the direction of travel is connected to the plow arm (3), so that also the plow arm (1), to which the plow body is pivotably attached, is under the influence of said cylinder for dampening the upturning movement of the plow arm and for returning the plow arm (1). 2. Plow as stated in claim 1, characterized in that the attachment point (2) of the plow arm (1) to the plow frame (3) is located in the direction of travel behind the front attachment point of the hydraulic cylinder in the direction of travel. 3. Plow as specified in claim 2, characterized in that the front attachment point of the cylinder (12) is located above the attachment point (2) of the plow arm to the plow frame (3) and so arranged in relation to the rear attachment point (9) of the cylinder (12) in the direction of travel to the plow axle (5) that the hydraulic cylinder (12) in the plow's working position is parallel to the plow arm (1) or rather towards it. 4. Plow as specified in any of the preceding claims, characterized in that the backward swinging movement of the plow arm and thus the plow body is adjustable by means of a valve device, preferably one in relation to its seat adjustable and in a cavity in the fluid channel (18,19) from the cylinder (12) arranged valve ball (20).