DE102009002439A1 - Arrangement and method for wrapping a bale - Google Patents

Abstract

The invention relates to an arrangement for wrapping a bale (32), comprising: a drive (54, 62) for introducing a wrapping material into a bale forming chamber (24), a sensor (34) for detecting a physical size of one in the bale forming chamber ( 24), such as the radial dimension or density, and a controller (38) connected to the drive (54, 62) and the sensor (34) and operable to drive the actuator (54, 62) to activate on the signals of the sensor (34). It is proposed that the controller (38) is operable to drive (54, 62) based on a detected growth rate of the size of the bale (23) and the time delay between the activation of the drive (54, 62) and the time at the wrapping material reaches the bale-forming chamber (24) to activate in a forward-looking manner, so that the wrapping material then reaches the bale-forming chamber (24) when the bale size corresponds to the desired size.

Description

The invention relates to an arrangement and a method for wrapping a bale, comprising:
a drive for introducing a wrapping material into a bale forming chamber,
a sensor for detecting a physical size of a bale formed in the bale forming chamber, and
a controller connected to the drive and the sensor operable to activate the drive based on the signals from the sensor.

State of the art

Round balers are usually equipped with devices for wrapping the finished bale, which are set in motion by a drive and deliver a yarn, a net or a foil, which lays and wraps around the rotating bale. Such devices are to be activated only after the completion of the bale, which takes place in the prior art at the instigation of the operator by means of an input device, after it has been signaled by a display device that the detected by a suitable sensor bale size or density has reached a certain value , It has also been proposed to automatically activate the drive of the bale wrapping assembly once the bale size sensor indicates that the desired bale diameter has been achieved ( US 5 551 218 A1 . EP 1 813 146 A2 ).

task

at one based on bale size detection Activation of the drive of the arrangement for wrapping the bale is to be regarded as disadvantageous that a certain time delay between the activation of the drive and the beginning of the actual Winding process is due to the distance between the device and the bale forming chamber and the conveying speed of the drive is conditional. This time delay slows down the bale production process.

The The problem underlying the invention is seen therein, a improved over the prior art device for wrapping a bale, which has the mentioned drawback not or to a lesser extent.

solution

This Problem is inventively by the teaching of Claim 1, wherein in the further claims Features are listed that provide the solution in more advantageous Evolve way.

A Arrangement for wrapping a bale in a round baler with a bale forming chamber of fixed or variable bale size includes a drive, with the wrapping material in a bale forming chamber can be introduced to those who are there, ready to wrap wrapped bales. The wrapping material is especially yarn, a net or a foil.

The assembly further includes a sensor that senses a physical size of the bale created in the bale forming chamber, which may be a dimension d in the radial direction (diameter or radius or the like) or density ρ. The sensor can detect the dimension d in the radial direction in a direct manner by z. B. is scanned by means of a sensor or by waves of bales, or indirect manner, for example, by a sensor, the amount of incoming into the bale forming crop and detected in a computer device is successively highly integrated. Similarly, the density ρ of the bale can be detected by suitable sensors on the side walls of the baler (s. EP 0 634 094 A1 ) or based on the pressure in cylinders for opening the rear door of the baler (see. EP 1 593 299 A1 and the cited prior art), or in an indirect manner, for example, by detecting the amount of incoming into the bale forming chamber crop by a sensor and is successively highly integrated in a computing device.

An electronic control is connected to the drive and the sensor. During operation, the controller detects the rate of increase Δd / Δt or Δρ / Δt of the size of the bale, ie the actual size change per unit of time. In addition, the control is an information on the time delay t ₁ , which elapses between the activation of the drive and the time at which the winding material reaches the bale forming chamber and by the conveying speed of the drive and the distance between the forward end of the winding material and the Ballenbildungskammer conditionally. The controller proactively activates the drive at a time before the bale size has reached the desired size to cause the wrapping material to reach the bale forming chamber at the exact bale size of the desired size. The controller activates the drive therefore at a growth rate .DELTA.d / At, a time delay t ₁ and a desired size of the bale from d _to once the diameter d of the equation d = d _to - t ₁ .DELTA.d / .DELTA.t corresponds to (or at a growth rate Δρ / Δt of the density, a time delay t ₁ and a target density of the bale of ρ _soll , as soon as the density of the equation ρ = ρ _soll - t ₁ · Δρ / Δt corresponds).

On This way will be unwanted, by the feeder the wrapping material to the bale forming chamber related waiting times avoided.

at A preferred embodiment of the invention is the Control information about the current propulsion speed fed, which can be detected by a sensor, the is on board the baler or towing vehicle. The But propulsion speed can also be a setpoint, the a drive control of the towing vehicle is present and by means of a data bus (CAN or ISOBUS) is transferred to the controller.

The Growth rate Δd / Δt or Δρ / Δt The size of the bale can be determined by the signals the sensor for detecting the size or density of the bale formed in the bale forming chamber. Alternatively or additionally, another is for this purpose Sensor for detecting the amount of incoming into the bale forming chamber Harvest used, for example, on the drawbar or on the underside of the baler is attached and the contour of the swaths to be picked up upstream of the pick-up of the baler by means of optical (laser rangefinder) or acoustic (ultrasonic) Waves determined. The incoming amount of material can also downstream the pickup optically or mechanically by a suitable sensor be captured, or it will be the drive torque of the pickup or a rotor following her downstream detected. Alternatively or in addition the incoming material quantity is derived from existing yield data, in a previous operation (mowing or swathing) recorded by suitable sensors and georeferenced stored and the controller.

The Information regarding the current propulsion speed In turn, the control is used to precisely determine the rate of increase Δd / Δt or Δρ / Δt of size bale when the propulsion speed is not constant. In detail, a related to the distance x, mean Size change Δd / Δx or Δρ / Δt of the bale calculated and be multiplied by the respective propulsion speed v, by the rate of increase Δd / Δt or Δρ / Δt to determine the size of the bale. The on the Distance related, mean size change of the bale may be consecutively recorded as described in the previous paragraph Growth rates and associated propulsion speeds be determined.

While wrapping the bale and then ejecting it should the baler (as long as it is not a continuous working baler with an antechamber, in which the incoming crop cached during the wrapping process will not move forward, to prevent further crops enters the bale forming chamber. It is therefore suggested to connect the controller with a display device that the Workplace of the operator of the tractor of the baler (or a self-propelled baler) is assigned. On this display device the operator is instructed to stop the towing vehicle as soon as the winding process has started. Alternatively or in addition is the control with a speed setting device of Towing vehicle connected to this automatically at the beginning the winding process to stop the baler.

Some Winding materials (especially yarn) get caught in the Bales, if at the beginning of the winding process still crop in the bale forming chamber enters. Therefore, it is proposed the drive and the Display device and / or the speed setting device to control the towing vehicle such that still crop in the bale forming chamber enters when the beginning of the wrapping material in this enters. Once the wrapping material is caught by the bale However, the baler is controlled by the control in the before stopped as described. For other wrapping materials (mesh, Slide), the baler is then stopped by the controller, when the drive was activated for the first time.

at a possible embodiment of the invention the controller activates the drive on the so selected Time that the wrapping material just then the bale forming chamber achieved when the bale size of the desired Size matches, and leaves him alone continue to run until the bale reaches the wrapping material has what is detected by means of a suitable sensor and the controller can be communicated, which then shuts off the drive. It lies Accordingly, a complete automation of the introduction of the Wrapping material before.

A however, another embodiment of the invention provides that the controller automatically activates the drive as long as until the wrapping material immediately before the bale forming chamber but is not yet caught by the bale. The drive is then only on an operator input in a Operator input device is activated until then the bale Winding material has detected what, by means of a suitable sensor can be detected and communicated to the controller that drives then switch off. It is therefore an operator control of the beginning the actual winding process.

embodiment

In The drawings is a closer described below Embodiment of the invention shown. It shows:

1 a round baler with a device for wrapping a bale and a towing vehicle in side view and in a schematic representation, and

2 a flow chart, after which the control of the device operates.

The 1 shows a round baler 10 with a housing 12 that by means of a drawbar 14 at a coupling eye of a towing vehicle 50 can be attached in the form of a farm tractor, with respect to the 1 to be pulled to the right in one direction over a field, and on wheels 16 supported. The housing 12 consists of a front, rigid housing half 18 and a rear, pivotable housing half 20 put together in an overhead joint 19 pivotally connected to each other. The housing 12 carries a variety of rollers. About the rollers run a plurality of juxtaposed endless conveyor elements 22 , which together with side walls of the housing 12 a bale forming chamber 24 mostly surrounded. In this embodiment, the conveying elements 22 designed as a belt. In the lower part of the bale forming chamber 24 is an inlet 26 provided, the rear of a roller 28 is limited and by a pickup 30 Picked up good in the bale forming chamber 24 enter.

The round baler 10 comprises a plurality of side by side arranged conveying elements 22 , They are set in motion during harvesting and enclose themselves in the bale forming chamber 24 forming bales 32 to from, above and behind. The structure and function of such a round baler are known per se. It is based on the revelation of DE 101 53 540 A the contents of which are incorporated by reference into the present documentation. With the reference numerals 32 . 32 ' and 32 '' Bales of increasing diameter are marked.

At the rear, upper end of the rear, pivoting housing half 20 is a sensor 34 attached. The sensor 34 is an ultrasonic rangefinder based on a transit time measurement and detects the distance between its underside and the adjacent conveyors 22 that are directly on the outer circumference of the bale 32 issue. The sensor 34 in this way provides information about the diameter of the bale 32 ready.

The round baler 10 further comprises a first wrapping material dispenser 44 Located at the back of the rear pivoting shell 20 is arranged. The wrapping material dispenser 44 includes a supply 46 on wrapping material consisting of a rolled-up net or a foil whose front, unwound end between pairs of rolls 48 passed through. The rollers 48 are by a drive 54 set in rotation, so that the front end of the wrapping material with activated drive 54 through the funding 22 is dragged into the bale forming chamber 24 get there and the bale 32 envelops. Between the drive 54 and the rollers 48 is a freewheel (not shown) arranged to allow the bale 32 the wrapping material when wrapping from stock 46 can pull off without the drive 54 co-rotate. In addition, the first wrapping material dispenser includes 44 a separator 56 to cut off the wrapping material after the winding process.

A second wrapping material dispenser 58 is located at the front of the round baler 10 and includes a supply 60 on wrapping material, which consists of yarn. The second wrapping material dispenser 58 also includes a pair of rollers 64 that by means of a drive 62 are drivable to the front end of the wrapping material in the bale forming chamber 24 Introduce it so that it is there through the bale 32 taken and enveloped. The wrapping material is successively across the width of the bale 32 guided by the whole wrapping material dispenser 58 or an outlet opening is moved laterally laterally. Between the drive 62 and the rollers 64 is a freewheel (not shown) arranged to allow the bale 32 the wrapping material when wrapping from stock 60 can pull off without the drive 62 co-rotate. In addition, the first wrapping material dispenser includes 44 a separator (not shown) to cut off the wrapping material after the wrapping operation.

The sensor is via a bus line 34 with a controller 38 connected, in turn, one in the driver's cab 52 of the towing vehicle 50 arranged display device 40 controls and instructions from an input device also arranged there 42 receives. The control 38 is also with the drives 54 . 62 , a speed specification device (engine and transmission control) 66 of the towing vehicle 50 , a speed sensor 68 in the form of a speed sensor for detecting the number of revolutions of the wheels 16 and a flow rate sensor 70 connected to the bottom of the drawbar 14 is mounted and that of the pickup 30 recorded swath optically or ultrasonically scanned to determine its volume.

In the 2 will the functioning of the controller 38 using a flow chart darge provides. After the start in the step 100 the operator gets in step 102 by displaying a suitable text on the display device 40 causes the wrapping material to be selected, with appropriate options via the input device 42 can be selected (no wrapping material, yarn and foil or net, depending on which stock 46 is in the first wrapping material dispenser). In addition, the desired bale diameter d _soll in the input device 42 entered.

It is now assumed that the towing vehicle 50 the baler 10 pulls over the field and the latter continuously picks up crop and a bale 32 shaped. The speed of the towing vehicle 50 can be specified by the operator or controlled automatically. For this, let the disclosure of the EP 1 813 146 A2 referred to by reference in these documents. In the next step 104 is based on the signals of the sensor 70 the diameter of the bale 32 determined. It follows the step 106 in which an average change in size of the bale (Δd / Δx) related to the distance x is determined. This is based on the signals of the sensor 34 , the speed sensor 68 and (optionally) the flow rate sensor 70 resorted. This change in size is averaged over a last distance traveled by a few meters. It would also be possible in the controller 38 to save a yield map and the current position by means of an antenna 72 is detected to receive signals from a satellite based position sensing system.

Subsequently, in step 108 checked whether a winding process is intended. If this is not the case, the step follows 110 in which it is queried whether the diameter d of the bale 32 the desired bale diameter d _should correspond. If this is not the case, the step follows again 104 , otherwise the step 112 in which the towing vehicle 50 is stopped, as described below, and then the bale 32 is ejected. Then the towing vehicle takes 50 Ride again to another bale 32 to create. It then follows again the step 100 although right after that again the step 104 could follow.

If the step 108 indicates that a winding operation is intended, checks the control 38 in the next step 114 whether the bale size has reached a value leading to a proactive activation of any of the drives 54 or 62 would lead. For this purpose, a comparison of the current bale size d with the difference between the desired bale diameter d _soll and the product of the time delay t ₁ (this is the time delay between the activation of the drive 54 or 62 and the time at which the wrapping material is the bale forming chamber 24 achieved) with that of the rate of increase Δd / Δt of the size of the bale, which is calculated by multiplying the speed v by the mean change in the size of the bale Δd / Δx relative to the distance x. In each case, the time delay t ₁ for the in step 102 selected wrapping material dispenser 44 or 58 apply.

If the one anticipatory activation of one of the drives 54 or 62 conditional diameter d is not reached, the step follows again 104 , Otherwise, the step follows 116 in which it is queried whether the second wrapping material dispenser 58 in step 102 was selected. If that is the case, in step 118 the drive 62 activated to the wrapping material (yarn) in the bale forming chamber 24 introduce. The next step 120 examines whether the wrapping material has been detected, ie the freewheel between the rollers 64 and the drive 62 runs free and the wrapping material from the stock 60 is unwound, which by means of a suitable speed sensor (not shown) on one of the rollers 64 can be detected. If that is the case, the step follows 122 otherwise the step again 120 , In the subsequent step 122 becomes the towing vehicle 50 stopped, which can be done either by the operator on the display 40 an appropriate instruction is given, or automatically, by the speed default device 66 of the towing vehicle 50 is instructed accordingly. The towing vehicle 50 is therefore only stopped (and the crop flow into the bale forming chamber 24 prevented), when the wrapping material through the bale 32 was recorded and carried. In the following step 124 will be asked if the bale 32 completely wrapped, ie a desired number of turns was applied to wrapping material. If this is not the case, the step follows again 124 Otherwise, the wrapping material is cut off and the step 112 follows.

If the step 116 has revealed that no yarn, but film or mesh is to be used as wrapping material, follows the step 116 the step 126 in which the drive 54 activated and the towing vehicle 50 is stopped, which can be done either by the operator on the display device 40 an appropriate instruction is given, or automatically, by the speed default device 66 of the towing vehicle 50 is instructed accordingly. The next step 128 examines whether the wrapping material has been detected, ie the freewheel between the rollers 48 and the drive 54 runs free and the wrapping material from the stock 46 is unwound, which by means of a suitable speed sensor (not shown) on one of the rollers 48 can be detected. If that is the case, the step follows 124 otherwise the step again 128 ,

The anticipatory activation of the antria be 54 or 62 has the advantage that the wrapping process starts immediately when the bale 32 his desired bale diameter d _{should have} reached. The operation is thus not due to the time delay between activation of the drives 54 or 62 and reaching the front end of the wrapping material of the bale forming chamber 24 unnecessarily delayed. It should be noted that the order of steps 126 and 128 can also be reversed. Besides, it would be possible in the steps 118 and 126 the drives 54 or 62 only to activate until the front end of the wrapping material immediately before the bale forming chamber 24 stands and then on the display device 40 to ask if the wrapping process should start now. The operator can then enter by an input to the input device 42 a delay-free wrapping of the bale 32 cause.

It should be noted that the present invention not only on the round baler described above 10 With variable chamber size can be used, but also on a round baler, not shown with fixed Presskammergröße. In the latter, the actual density ρ of the bale in the bale chamber is detected by a suitable sensor and the rate of increase of the density Δρ / Δt. There, the drive for introducing the wrapping material into the bale forming chamber is proactively activated based on the rate of increase, the time delay between the activation of the drive and the time at which the wrapping material reaches the bale forming chamber, and the current density.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• US 5551218 A1 [0002]
• - EP 1813146 A2 [0002, 0027]
• EP 0634094 A1 [0007]
• EP 1593299 A1 [0007]
• - DE 10153540 A [0021]

Claims (12)

Arrangement for wrapping a bale ( 32 ), with: a drive ( 54 . 62 ) for introducing a wrapping material into a bale forming chamber ( 24 ), a sensor ( 34 ) for detecting a physical size of one in the bale-forming chamber ( 24 ) resulting bale ( 32 ), and one with the drive ( 54 . 62 ) and the sensor ( 34 ) connected control ( 38 ) which is operable to drive ( 54 . 62 ) based on the signals of the sensor ( 34 ), characterized in that the controller ( 38 ) is operable, the drive ( 54 . 62 ) based on a detected growth rate of the size of the bale ( 23 ) and the time delay between activation of the drive ( 54 . 62 ) and the time at which the wrapping material the bale forming chamber ( 24 ) is activated to anticipate, so that the wrapping material then the bale forming chamber ( 24 ) when the bale size is the desired size. Device according to claim 1, characterized in that the controller ( 38 ) information about the propulsion speed can be fed. Apparatus according to claim 1 or 2, characterized in that the controller ( 38 ), the rate of increase based on the signals of the sensor ( 34 ) and / or another sensor ( 70 ) for detecting the amount of the bale forming chamber ( 24 ) incoming crop and / or stored yield data. Device according to claim 2 or 3, characterized in that the controller ( 38 ), a distance-related, mean change in size of the bale ( 32 ) and multiply them by the respective propulsion speed in order to estimate the growth rate of the size of the bale ( 32 ). Device according to one of claims 1 to 4, characterized in that the controller ( 38 ) with a display device ( 40 ), which gives an operator an instruction to hold a towing vehicle ( 50 ) is displayed and / or with a speed setting device ( 66 ) of the towing vehicle ( 66 ) is connected to the towing vehicle ( 50 ) to stop at the beginning of the winding process. Device according to claim 5, characterized in that the controller ( 38 ) is operable, the drive ( 54 . 62 ) and the display device ( 40 ) and / or the speed setting device ( 66 ) of the towing vehicle ( 50 ) such that still crop in the bale forming chamber ( 24 ) enters when the wrapping material in the bale forming chamber ( 24 ). Device according to claim 6, characterized in that the controller ( 38 ) is operable, the drive ( 54 . 62 ) to activate automatically until the bale ( 32 ) has detected the wrapping material. Device according to one of claims 1 to 7, characterized in that the controller ( 38 ) is operable, the drive ( 54 . 62 ) to activate automatically until the wrapping material just before the bale forming chamber ( 24 ), but not yet through the bale ( 32 ) and the drive ( 54 . 62 ) to an operator input to an operator input device ( 42 ) again until the bale ( 32 ) has detected the wrapping material. Device according to one of claims 1 to 8, characterized in that the physical size of the bale ( 32 ) is its density or its dimension in the radial direction. Round baler ( 10 ) with a bale forming chamber ( 24 ) of fixed or variable size and a device according to one of claims 1 to 9. Round baler ( 10 ) according to claim 10, characterized in that the wrapping material consists of yarn or mesh or a film. Method for wrapping a bale ( 32 ), with the following steps: providing a drive ( 54 . 62 ) for introducing a wrapping material into a bale forming chamber ( 24 ), Providing a sensor ( 34 ) for detecting a physical size of one in the bale-forming chamber ( 24 ) resulting bale ( 32 ), and providing one with the drive ( 54 . 62 ) and the sensor ( 34 ) connected control ( 38 ), which drives ( 54 . 62 ) based on the signals of the sensor ( 34 ), characterized in that the controller ( 38 ) the drive ( 54 . 62 ) based on a detected growth rate of the size of the bale ( 32 ) and the time delay between activation of the drive ( 54 . 62 ) and the time at which the wrapping material the bale forming chamber ( 24 ) is activated, so that the wrapping material then the bale forming chamber ( 24 ) when the bale size is the desired size.