DE1294208B - Hydraulic power lifting device, especially for agricultural tractors - Google Patents

Description

The invention relates to a hydraulic power lifting device, especially for agricultural tractors, with a hydraulic drive for actuation an attachment, a control valve with a valve member, which from a zero position from sliding in opposite directions for lifting and lowering and with one Control lever and a movable part of the drive is connected so that the valve member is returned to its zero position by the moving part after it had been moved away from the zero position by the control lever, and one on pressure responsive switching valve, which is controlled by the control valve and in a line connecting a pump to a container is arranged so that the switching valve closes the line when the valve member of the control valve is in moves the stroke position and the pressure generated by the pump acts on the drive.

In the case of such a hydraulic power lifting device, it is known an anti-skid device under the control of the driver the driven rear wheels of the tractor.

It is known means for preventing the wheels of a Agricultural tractor with a hydraulic power lifting device with one of one Control lever operated control valve to be provided, which from a first neutral preset position in which the drive of the pump and the container are switched off is either in a second preset lifting position in which the control valve connects the pump to the drive and switches off the drive from the container, or is moved into a third preset lowered position in which the control valve connects the drive to the container. With such facilities, the device raised or lowered when the lever is in either position from its first position is moved in other directions, and the raising or lowering is only stopped if when the lever is returned to its first position by the driver. The at such a device employed means for preventing the wheels from slipping consist of a throttling of a passage that connects the pump to the Connects container, and a simultaneous connection of the drive to the passage channel behind the throttled section by means of the control valve. This is done by adjusting of the control lever and the movable member of the control valve in a fourth, of the neutral raised and lowered position adjusted to different positions. The pressure, which generated by these means is not high for the attachment to be lifted enough, but it allows a fraction of the weight or load to be transferred of the attachment on the rear wheels of the tractor and accordingly an increase their adherence to the ground. Such means cannot be used with a hydraulic one Power lifting device according to the invention can be used because in this device all the positions which the movable member of the control valve can assume when it is moved from the neutral position in a direction while lowering positions are all those positions which the valve member can assume when it is in the opposite direction Direction is moved from the neutral position, lifting positions are. Consequently it is not possible to find an anti-skid position for this valve element, where it throttles the hydraulic flow from the pump to create a pressure, which is smaller than what is required to lift the attachment. Either if the valve member is in the lowered position and no pressure would then be generated, or it is in the lifted position and the pressure is then that through the pump generated maximum pressure.

It is also known as an anti-skid agent in the above-described hydraulic lifting device to use a check valve through which the drive can be connected to the container. This check valve is usually ineffective, either because it is loaded by a spring, which is strong enough to prevent it from opening, even if there is pressure in the actuator reaches its highest value, or it is driven by a shut-off valve isolated. When the control valve moves into the lever position and the check valve either by reducing the strength of the loading spring or by opening the Shut-off valve is made effective, a limited pressure is developed, which depends on the strength of the spring loading the check valve and on the movable Link of the drive for transmitting a fraction of the weight or the load of the attachment acts on the rear wheels of the tractor.

If such means in a hydraulic power lifting device after the invention would be used, the driver would have to every time the tractor wheels slide occurs, first move the control lever of the lifting device from the selected position accordingly a desired working position of the device and then move to the mode of operation the check valve controlling lever act to bring it into the effective position then return the joystick to its initial selected position, as soon as the tractor resumes its normal course. This set of Operations would be relatively complex and time consuming if one Keeps in mind that sliding of the wheels must be stopped quickly in order to dig them in avoid in the ground. There would also be a risk of the control lever and thus the device is not exactly in its initial positions after each actuation the anti-skid device would be returned.

The invention is based on the object of an anti-skid device to provide which can be easily and quickly put into action and from which Control valve is completely independent, which means that it does not work with it at all which gets in the way of the lifting device and where it is not necessary the position of the attachment after each actuation of the anti-skid device steer.

According to the invention, this is actuated by a muscle force Device achieved with a lever which is connected to the switching valve and can push it to the closed position to control the hydraulic in a known manner To throttle the flow in the line and to generate a reduced hydraulic pressure, which acts on the hydraulic drive.

In the hydraulic power lifting device according to the invention the driver only has to operate the lever connected to the switching valve when a slide occurs and it is released as soon as the tractor is normal Run again. The elevator control lever will not out of its selected position during actuation of the anti-skid device moved and accordingly the position of the device is not changed.

In the drawing is a hydraulic power lifting device according to the Invention shown, the control valve shown in the lowered position is.

The hydraulic power lifting device shown contains a continuously running pump 1 which sucks hydraulic fluid from a container 5 through an inlet line 3 and delivers it to a pressure line 7 which is connected to the bore of a control valve. A valve member 11 of the control valve is controlled by a control lever 13 which can be operated by physical strength and which is connected to the valve member by a conventional tracking linkage 15 . A portion of the valve member reduced in diameter delimits an annular chamber 9 in the valve bore. The reduced part of the valve member is arranged between two collars sliding in the bore. The left collar closes one end of the bore, while the right collar controls the connection between the pressure line 7 and a working line 17 which leads to the lifting cylinder 42.

A seat 20 of a switching valve 22 is connected to the pressure line 7. The switching valve 22 contains a valve member 24 which is displaceable in a bore 26 and is biased against the seat 20 by a light spring 28. The valve member 24 is provided with a throttle channel 30 which connects the front surface of the valve member with a rear chamber 32 which is in communication through a channel 34 with an enlarged bore portion 36 of the control valve bore. The throttle channel 30 can be replaced by a slight clearance between the valve member 24 and the bore 26. When the valve member 11 is in the "neutral" or in the "lowered" position, the right collar of the valve member 11 exposes the enlarged bore section 36, which then communicates with a return chamber 38 connected to the container by a line 40 . When the valve member is moved to the "lift" position, the connection between the enlarged bore section 36 and the chamber 38 is cut off.

A check valve 44 is arranged between the working line 17 and the lifting cylinder 42 in order to keep the drive under pressure when the control valve is brought back into its neutral position by the tracking rod 15 and the pump is conveying into the container. The check valve 44 is automatically opened by the pressure when the control valve is in the lifting position and the pump supplies the fluid pressure to the working line 17. When the control valve is set in the lowered position, as shown in the drawing, a push rod 46 actuated by a lever 48 pivotably mounted on the housing opens the check valve 44 and connects the lifting cylinder 42 to the working line 17 provided, which is lifted from its seat 51 and enables the liquid to be emptied from the lifting cylinder 42 into the container 5 through a return line 52 via the switching valve 22 and through the channel 25. A throttle channel 18 'is provided in the seat 51 for connecting the work line 17 to the return line 52. An adjusting screw 53 is provided at one end of the lever 48 to compensate for manufacturing tolerances in order to enable the check valve 44 to open with a minimal displacement of the valve member 11 from its neutral position. An overpressure valve protects the hydraulic system against excessive pressure. The pressure relief valve 54 connects the pressure line 7 to an outflow line 55 when the pressure in the pressure line 7 rises above the specific value to which the pressure relief valve 54 is set for opening.

A sliding member 56, against which the spring 28 is supported, can come into engagement with valve member 24 and seat it upon actuation of the sliding member 56 by a lever 58 adjustable by physical strength.

When the control valve is in the neutral or lowered position, the enlarged bore section 36 is at least partially uncovered and the valve member 24 is lifted by the pressure generated by the pump in the pressure line 7 and opens the unrestricted connection between the pressure line 7 and the line 40. The pressure in the line 7 is limited to a low value which is sufficient to overcome the compressive force of the light spring 28.

When the control valve comes into the lifting position, the annular chamber 9 comes into overlap with the working line 17, and the hydraulic fluid supplied by the pump flows from the pressure line 7 to the working line 17. Almost simultaneously, the edge of the right collar of the valve member 11 separates enlarged bore portion 36 from return chamber 38. Hydraulic flow in the bypass circuit which includes throttle passage 30, rear chamber 32, passage 34 and return chamber 38 is cut off and the pressure in rear chamber 32 builds up to the pump pressure on. The pressure forces on the end faces of the valve member cancel each other out, and the spring 28 presses the valve member 24 onto its seat. The pressure in the pressure line 7 and the working line 17 then increases. The check valve 44 opens and allows the fluid to enter the lifting cylinder 42. A movement of the piston of the lifting cylinder is transmitted through the tracking linkage 15 and brings the valve member 11 back into its neutral position.

When the valve member 11 is brought into the lowered position shown in the drawing, the bypass via the switching valve 22 is opened, as described above, and the switching valve maintains the unrestricted connection between the pump and the container. The valve member 11 separates the pressure line 7 from the working line 17 and at the same time pivots the lever 48 about its point of articulation on the housing. The lever pushes the pushrod 46 from its seat 51 and engages the check valve 44 to open it. A lowering of the attachment is stopped when the lifting cylinder is adjusted so far that it returns the valve member 11 via the tracking linkage 15 to its neutral position. The operation of the anti-skid device is as follows: When the valve member 11 is in the neutral or in the lowered position and the driver moves the lever 58 to the right, the sliding member 56 pushes the valve member 24 in the direction of its seat 20 and thereby throttles the hydraulic flow from the pressure line 7 towards the line 40. The pressure in the pressure line 7 is increased and exerts a reaction force on the valve member 24, which is transmitted to the control lever 58 and gives the driver a real feeling of the pump pressure. The pump pressure then also prevails in the return line 52, lifts the flange 50 from its seat 51 and opens the check valve 44 to build up pressure in the lifting cylinder 42 an immediate actuation of the displacement member 56 can be arranged.

The anti-skid pressure should preferably be at a maximum value limited to the weight of the implement in such a relationship indicates that the device will not be lifted. Pressure limitation is provided by conventional Means, for example by an adjustable stop 58 'obtained, which the stroke of the lever 58 is limited. A usual maximum anti-skid pressure is one third of the maximum working pressure.

The lever 58 can also be designed as a foot lever.

Claims (2)

Claims: 1. Hydraulic power lifting device, in particular for agricultural tractors, with a hydraulic drive to operate an attachment, a control valve with a valve member, which from a zero position in opposite directions for lifting and lowering and with a control lever and a movable part of the drive is connected so that the valve member in its zero position is returned by the moving part after it is out the zero position had been moved away by the control lever, and one on pressure responsive switching valve, which is controlled by the control valve and in a a pump with a container connecting line is arranged so that the switching valve the line closes when the valve member of the control valve is in the lift position moves and the pressure generated by the pump acts on the drive, marked by a device which can be actuated by muscle power and has a lever (58) which is connected to the switching valve (22) and push it into the closed position can to throttle the hydraulic flow in the line (40) in a known manner and to generate a reduced hydraulic pressure which is applied to the hydraulic Drive works. 2. Hydraulic power lifting device according to claim 1, characterized by a known mechanical stop (58 ') for the lever (58).