DE10130182A1 - Single grain sowing machine has running wheel(s) preferably in each lateral area of machine to drive at least some single grain sowing units via variable speed gearbox, transfer arrangement - Google Patents

Abstract

The machine has a large working spread with several individual grain sowing units (4) on a frame or several sub-frames transverse to the working direction and driven by at least one running wheel via a gearbox of adjustable speed. At least one running wheel (5,8) is arranged preferably in each lateral area of the machine to drive at least some of the units via a gearbox (11,12) and transfer arrangement (9,10,13,14).

Description

The invention relates to a precision seed Machine according to the preamble of claim 1.

Such precision seed drills are in practice in a lot famously known. These precision planters for large Working widths (mainly machines understood with 6 m and more working width) show one three subframes existing snap frames, each Subframe is assigned at least one impeller, of which from each via a variable-speed gearbox drive a single-grain sowing unit arranged in a subframe are cash. Practice has now shown that this drive is disadvantageous, especially if the wheels of the individual Parts on differently solidified floor areas run so that there is a difference on the individual wheels Slip occurs. This causes the single grain seed drills on the individual subframes in different Spread the seeds at intervals.

The invention has for its object with simple Means an even drive of all precision saw units gate with the same speed, without speed fluctuation from Ensure sowing units to sowing unit.

This object is achieved in that preferably each An impeller is arranged in the side area of the machine is, which each via a speed adjustable gear by means of suitable transmission means at least a part which drives precision seed drills. As a result of these measures the impellers are arranged in an area which is not of the tractor wheels of the tractor pulling the machine located.  

Each impeller preferably drives half the number of the single grain sowing units.

Another improvement to the uniform drive of the Precision sowing units can be achieved in that one half each of the precision sowing units has a common one me drive shaft is assigned to each shaft by at least least an impeller can be driven, and that coupling means in torque transferable between the two shafts are arranged. As a result of these measures, the waves coupled in a torque transferable manner, so that it is ensured that all precision sowing units with be driven at the same speed. Should be one under different slip at the two spaced apart arranged impellers, each on a different side frames are arranged, occur through the shaft the resulting speed differences compensated.

If there is too much slip difference between the two Drive wheels should occur, and then in this case It is intended to avoid damage to the drive train, that the coupling means as a rigid coupling, preferably is designed with an overload protection.

It is also possible to avoid damage to the dome then form as a flexible coupling.

It is also possible that in each drive train between Impeller and shaft a freewheel element is arranged so that if there is too much slip difference then the impeller on which the less slip occurs that the precision sowing units driving shaft drives.

Further details of the invention are the remaining Unteran say, the sample description and the drawings remove. Show here

Fig. 1 the precision seeder in front view and schematic diagram and

Fig. 2 shows another precision seeder in front view and schematic diagram.

The precision seed drill with a large working width of 9 m has the folding frame consisting of the central frame 1 and the two side frames 2 and 3 . The side frames 2 and 3 and middle frame 1 are connected to one another via coupling frames and folding mechanisms, not shown, so that they can be brought from the basic position shown in FIG. 1 into a transport position. On the central frame 1 and the side frames 2 and 3 , the precision sowing units 4 are arranged in a manner not shown in detail. On the side frame 2 and 3 , the wheels 5 , 6 , 7 and 8 are arranged , which are supported on the ground during operation. The individual grain sowing units 4 are driven via the drive trains 9 and 10 and the speed-adjustable gears 11 and 12 via the shafts 13 and 14 . Here, the left impeller 5 drives one half 15 of the single-grain saw unit 4 via the gear 16 , while the other impeller 8 drives the other half 16 of the single-grain saw unit 4 via the gear unit 17 . Between the shaft 13 'and 14 ', which are assigned to the arranged on the side frame 2 , 3 precision seed drills 4 and the halves of the center frame 1 assigned to the grain sander th 4 assigned shaft 13 "and 14 " are each connected via a coupling 17 .

1, the seeder of Fig. 2 differs from the seeder according to FIG. Characterized that each half 15 and 16 of Einzelkornsäaggregate 4 associated drive shafts 13 and 14 miteinan via a coupling means 18 in a torque transmissible or non-positive manner, the associated. This coupling 18 can be designed as a rigid coupling or elastic coupling. This drive has the advantage over the drive according to FIG. 1 that in any case a uniform drive of all individual grain sowing units 4 with the same speed without speed fluctuation is achieved from sowing unit 4 to sowing unit, which from one half 15 to the other half 16 does not fluctuates, but if on one side there is a greater slip on the wheels 5 or 8 than on the other side, this is compensated for by the drive shafts, because on the one hand the drive slows down or because the other drive wheel is also driven with.

Alternatively, it is also possible to arrange a freewheel element in each drive train between the impeller 5 or 8 and the shaft 13 , 14 , so that in each case the impeller 5 , 8 , which has less slip, drives the shaft 13 , 14 .

Each of the impellers 5 , 8 is assigned a pulsge, not shown, for detecting the wheel revolutions. The pulse transmitters transmit signals to an on-board computer, which uses these signals to calculate the distance traveled and the current speed of the machine. In order to achieve the most accurate values possible, the on-board computer converts the signal from the pulse generator, whose impeller has less closure.

Claims (8)

1. precision seed drill of large working width with several single grain sowing units, which are spaced apart from one another on a frame or several partial frames of a snap frame extending transversely to the working direction and can be driven by at least one impeller via a speed-adjustable gear, characterized in that preferably in each case in the side area of the machine at least one impeller ( 5 , 8 ) is arranged, each of which drives a speed-adjustable gear ( 11 , 12 ) by means of suitable transmission means ( 9 , 10 , 13 , 14 ) at least some of the precision saw units ( 4 ). 2. precision seeder according to claim 1, characterized in that each impeller ( 5 , 8 ) drives half the number ( 15 , 16 ) of the individual sowing units ( 4 ). 3. precision seeder according to one or more of the preceding claims, characterized in that one half ( 15 , 16 ) of the precision sowing units ( 4 ) is assigned a common drive shaft ( 13 , 14 ) that each shaft ( 13 , 14 ) of at least an impeller ( 5 , 8 ) can be driven such that coupling means ( 18 ) are arranged in a torque-transferable manner between the two shafts ( 13 , 14 ). 4. precision seeder according to one or more of the preceding claims, characterized in that the coupling agent tel ( 18 ) are designed as a rigid coupling, preferably with an overload safety device. 5. precision seeder according to one or more of claims 2 to 3, characterized in that the coupling means ( 18 ) are designed as an elastic coupling. 6. precision seeder according to one or more of claims 2 to 3, characterized in that in each drive train ( 9 , 10 ) between the impeller ( 5 , 8 ) and shaft ( 13 , 14 ) a freewheel element is arranged. 7. Precision seeder according to one or more of the above the claims, characterized in that the Antriebswel len of the two drive trains by means of a clutch in are non-positively connected. 8. Precision seeder according to one or more of the above the claims, characterized in that each drive wheel a sensor for detecting travel pulses is assigned.