US20100122632A1 - Arrangement and Process For The Wrapping Of A Bale - Google Patents
Arrangement and Process For The Wrapping Of A Bale Download PDFInfo
- Publication number
- US20100122632A1 US20100122632A1 US12/608,252 US60825209A US2010122632A1 US 20100122632 A1 US20100122632 A1 US 20100122632A1 US 60825209 A US60825209 A US 60825209A US 2010122632 A1 US2010122632 A1 US 2010122632A1
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- United States
- Prior art keywords
- bale
- drive
- arrangement
- baling chamber
- wrapping material
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01F—PROCESSING OF HARVESTED PRODUCE; HAY OR STRAW PRESSES; DEVICES FOR STORING AGRICULTURAL OR HORTICULTURAL PRODUCE
- A01F15/00—Baling presses for straw, hay or the like
- A01F15/07—Rotobalers, i.e. machines for forming cylindrical bales by winding and pressing
- A01F15/071—Wrapping devices
- A01F15/0715—Wrapping the bale in the press chamber before opening said chamber
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01F—PROCESSING OF HARVESTED PRODUCE; HAY OR STRAW PRESSES; DEVICES FOR STORING AGRICULTURAL OR HORTICULTURAL PRODUCE
- A01F15/00—Baling presses for straw, hay or the like
- A01F15/08—Details
- A01F15/14—Tying devices specially adapted for baling presses
- A01F15/141—Tying devices specially adapted for baling presses for round balers
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01F—PROCESSING OF HARVESTED PRODUCE; HAY OR STRAW PRESSES; DEVICES FOR STORING AGRICULTURAL OR HORTICULTURAL PRODUCE
- A01F15/00—Baling presses for straw, hay or the like
- A01F15/07—Rotobalers, i.e. machines for forming cylindrical bales by winding and pressing
- A01F15/071—Wrapping devices
- A01F2015/076—Wrapping device incorporating sensors
Definitions
- the invention concerns arrangements and processes for the wrapping of agricultural bales.
- the arrangement has a drive for the introduction of a wrapping material into a baling chamber, a sensor for the detection of a physical size of a bale being formed in the baling chamber, and a control arrangement connected to the drive and the sensor that can be operated so as to activate the drive based on the signals from the sensor.
- Round agricultural balers are usually equipped with arrangements for the wrapping of the finished bale that are brought into movement by a drive, and deliver twine, a net or a foil, that is deposited upon and envelops the rotating bale.
- Such arrangements are only activated after the completion of the bale, and can be induced by the operator by means of an input arrangement, after the operator has been notified by a signal in a display arrangement that the size of the bale or the density of the bale has reached a certain value.
- the drive of the arrangement for the wrapping of the bale be activated automatically, as soon as the sensor for the detection of the size of the bale indicates that the desired diameter of the bale had been reached (U.S. Pat. No. 5,551,218, EP1813146A2).
- An arrangement for wrapping a bale in a round agricultural baler having a baling chamber of a fixed or variable bale size includes a drive, with which wrapping material can be introduced into the baling chamber, in order to wrap the finished bale located in the baling chamber.
- the wrapping material in particular, may be twine, net or foil.
- the arrangement includes a sensor that detects the physical size of the bale developing in the baling chamber, which may be a size d in the radial direction (Diameter or radius or the like) or the density p.
- the sensor can detect the dimension d in the radial direction directly, in which, for example, the bale is scanned by a feeler or by waves, or indirectly, in that, for example, a sensor detects the amount of harvested crop entering the baling chamber that is successively integrated upward in a calculating arrangement.
- the density p of the bale can be detected by appropriate sensors in the side walls of the baling chambers (see EP0634094A1) or on the basis of the pressure in the cylinder that opens the back door of the baler (compare EP1593299A1 and the state of the art cited there) or indirectly in that, for example, a sensor is used to detect the amount of harvested crop entering the baling chamber that is successively integrated upward in a calculating arrangement.
- An electronic control arrangement is connected with the drive and the sensor. During the baling operation the control arrangement detects the growth rate ⁇ d/ ⁇ t or ⁇ p/ ⁇ t of the size of the bale that is the actual change in the size per unit of time. In addition, the control arrangement has available information regarding the time delay t 1 between the activation of the drive and the time at which the wrapping material reaches the baling chamber and that depends on the conveying velocity of the drive and the distance between the forward end of the wrapping material and the baling chamber. The control arrangement activates the drive looking ahead at the exact time before the bale has reached the desired size, in order to assure that the wrapping material reaches the baling chamber exactly at the time at which the size of the bale corresponds to the desired size.
- control arrangement is supplied with information regarding the actual forward propulsion velocity that can be detected by a sensor located on board the baler or the towing vehicle.
- the forward propulsion velocity may also be a target value that has been stored in the drive control arrangement of the towing vehicle and is transmitted to the control arrangement over a data bus (CAN or ISO BUS).
- the growth rate of the bale ⁇ d/ ⁇ t or ⁇ p/ ⁇ t can be determined on the basis of the signals of the sensor for the detection of the size or the density of the bale that is growing in the baling chamber.
- a further sensor is used to detect the amount of the harvested crop entering the baling chamber, that can be fastened, for example, to the tow bar or the underside of the baler and determines the contour of the swath that is to be picked up upstream of the pickup of the baler by means of optical waves (laser distance measurement) or acoustic waves (ultrasound waves).
- the incoming amount of material can also be detected optically or mechanically by an appropriate probe, or by monitoring the drive torque of the pickup or of a rotor following it downstream.
- the incoming amount of material is derived from existing yield data that has been detected during a previous operating cycle (mowing or swaths) by means of appropriate sensors, geo-referenced and stored in memory and made available to the control arrangement.
- the information regarding the actual forward operating velocity in turn is used by the control arrangement for the exact determination of the rate of growth ⁇ d/ ⁇ t or ⁇ p/ ⁇ t of the size of the bale, if the forward propulsion velocity is not constant.
- an average change in the size of the bale can be calculated for this and referenced to the path length x for the change in the size of the bale ⁇ d/ ⁇ x or ⁇ p/ ⁇ x multiplied by the immediate forward velocity v, in order to determine the growth rate ⁇ d/ ⁇ t or ⁇ p/ ⁇ t in the size of the bale.
- the average change in size of the bale referenced to the path length can be determined continuously from the growth rates and associated forward propulsion velocities described in the previous paragraph.
- the baler should not move forward (as long as this is not a continuously operating baler with a pre-chamber, in which the incoming harvested crop is stored temporarily during the wrapping process) in order to prevent that additional harvested crop intrudes into the baling chamber. Therefore the invention proposes that the control arrangement be connected to a display arrangement that is associated with the operating stand of the operator of the towing vehicle (or a self-propelled baler). On this display arrangement the operator is advised to stop the towing vehicle as soon as the wrapping process has begun. Alternatively or additionally the control arrangement is connected with a velocity input arrangement of the towing vehicle in order to induce the latter to stop the baler automatically at the beginning of the wrapping process.
- the invention proposes that the drive and the display arrangement and/or the velocity input arrangement on the towing vehicle be controlled in such a way that harvested crop continues to enter the baling chamber when the beginning end of the wrapping material enters into the baling chamber.
- the baler is stopped by the control arrangement in the aforementioned manner.
- the baler is stopped by the control arrangement when the drive is activated for the first time.
- control arrangement activates the drive at the exact time selected in this way so that the wrapping material reaches the baling chamber exactly when the size of the bale equals the desired size and permits it to continue running automatically until the bale has grasped the wrapping material which can be detected by an appropriate sensor and transmitted to the control arrangement which then stops the drive. Accordingly the introduction of the wrapping material has been completely automated.
- control arrangement activate the drive automatically until the wrapping material is located immediately ahead of the baling chamber, but has not yet been grasped by the bale. Subsequently the drive is activated only upon an operator's input in an operator's input arrangement, until the bale has grasped the wrapping material which is recognized by means of an appropriate sensor and transmitted to the control arrangement which then turns off the drive. Accordingly an operator's control exists for the initiation of the actual wrapping process.
- FIG. 1 is a schematic side view of a towing vehicle and a round baler with an arrangement for the wrapping of a bale;
- FIG. 2 is a flow chart according to which the control of the arrangement operates.
- FIG. 1 shows a round baler 10 with a housing 12 , that can be coupled by means of a tow bar 14 to a towing vehicle 50 in the form of an agricultural tractor, in order to be towed across a field in a direction of operation to the right in FIG. 1 , and is supported on wheels 16 .
- the housing 12 is composed of a forward rigid housing half 18 and a rear housing half 20 that can be pivoted, these are connected to each other so they can pivot by a joint 19 located upward.
- the housing 12 carries a multitude of rolls.
- Several endless conveying elements 22 arranged alongside each other, extend over the rolls and largely surround the baling chamber 24 that is also enclosed by side walls of the housing 12 . In this embodiment the conveying elements 22 are configured as belts.
- An inlet 26 is provided in the lower region of the baling chamber 24 , which is bordered to the rear by a roll 28 and permits entry into the baling chamber 24 by crop taken up by a pickup 30 .
- the round baler 10 includes several conveying elements 22 arranged alongside each other. They are brought into movement during the harvesting operation and enclose a bale 32 being formed in the bailing chamber 24 to the front, above and to the rear.
- the configuration and the functions of such a round baler are known in themselves. Reference is made to the disclosure of DE 10153540A whose contents are included by reference in the present document. Bales of increasing diameter are characterized by call-outs 32 , 32 ′, 32 ′′.
- a sensor 34 is fastened to the upper rear end of the rear housing half 20 that can be pivoted.
- the sensor 34 is an ultrasonic distance measuring device that is based on a measurement of running time and detects the spacing between its underside and the adjoining conveying elements 22 that are located directly in contact with the outer circumference of the bale 32 . In this way the sensor 34 makes available information regarding the diameter of the bale 32 .
- the round baler 10 includes a first wrapping material dispenser 44 that is arranged on the rear side of the pivoted rear housing half 20 .
- the wrapping material dispenser 44 includes a supply 46 of wrapping material, that consist of a rolled up net or a foil, whose forward unrolled end is conducted through pairs of rolls 48 .
- the rolls 48 can be brought into rotation by a drive 54 so that the forward end of the wrapping material is drawn along by the conveying devices 22 when the drive 54 is activated, and reaches the baling chamber 24 and there encloses the bale 32 .
- a free section (not shown) is arranged between the drive 54 and the rolls 48 , so that the bale 32 can draw off the wrapping material from the supply 46 without rotating the drive 54 with it.
- the first wrapping material dispenser 44 includes a separating arrangement 56 in order to cut off the wrapping material after the wrapping process.
- a second wrapping material dispenser 58 is located on the forward side of the round baler 10 and includes a supply 60 of wrapping material that consists of twine.
- the second wrapping material dispenser 58 includes a pair of rolls 64 that can be driven by means of a drive 62 , in order to introduce the wrapping material into the baling chamber 24 , so that it is carried along there by the bale 32 and encloses it.
- the wrapping material is successively conducted across the width of the bale 32 , in that the entire wrapping material dispenser 58 or an outlet opening is continuously moved sideways.
- a free section (not shown) is arranged between the drive 62 and the rolls 64 , so that the bale 32 can withdraw the wrapping material during the withdrawal from the supply 60 , without rotating the drive 62 along with it.
- the first wrapping material dispenser 44 includes a separating arrangement (not shown) in order to be able to cut off the wrapping material after the wrapping process.
- the sensor 34 is connected with a control arrangement 38 over a bus, that in turn controls a display arrangement 40 in the operator's cab 52 of the towing vehicle 50 and receives instruction from an input arrangement 42 also located there.
- the control arrangement 38 is connected with the drives 54 , 62 , a velocity input arrangement 66 (motor- and gearbox control) of the towing vehicle 50 , a velocity sensor 68 in the form of a rotational speed sensor to detect the rotational speed of the wheels 16 and a throughput sensor 70 that is mounted on the underside of the tow bar 14 and that scans the swath that is to be taken up by the pickup 30 optically or with ultrasonic waves in order to determine its volume.
- FIG. 2 shows the function of the control arrangement 38 on the basis of a flow chart.
- the operator is induced in step 102 by the display of an appropriate text on the display arrangement 40 to select the wrapping material, for the purpose of which corresponding options can be selected by means of the input arrangement 42 (no wrapping material, twine and foil or net, depending on the supply 46 located in the first wrapping material dispenser).
- the desired bale diameter d target is provided as input in the input arrangement 42 .
- the process originates from the fact that the towing vehicle 50 tows the baler 10 across a field and the latter continuously takes up harvested crop and forms it into a bale 32 .
- the velocity of the towing vehicle 50 may be provided as input by the operator or controlled automatically.
- EP 1813146A2 whose disclosure is incorporated by reference into the present document.
- the diameter of the bale 32 is determined on the basis of the signals of the sensor 70 .
- step 106 follows in which an average change in size of the bale is referenced to the length of the path x ( ⁇ d/ ⁇ x).
- the signals of the sensor 34 , the velocity sensor 68 and (optionally) of the through put sensor 70 are referenced.
- This change in size is averaged over a last distance covered of several meters. It would also be conceivable to store a yield card in the control arrangement 38 and to recall the distance covered on the basis of the actual position that is detected by an antenna 72 for the reception of signals of a satellite based position detection system.
- step 108 questions whether a wrapping process is contemplated. If that is not the case, step 110 follows, in which the question is posed whether the actual diameter d of the bale 32 is equal to the desired diameter d target . If that is not the case step 104 again follows, otherwise step 112 is used, in which the towing vehicle 50 is stopped as described further in the following, and then the bale 32 has been ejected. Subsequently the towing vehicle 50 resumes the forward operation in order to create further bales 32 . Then step 100 again follows, although step 104 could follow directly.
- step 108 indicates that a wrapping process is intended the control arrangement 38 then determines in the following step 114 whether the size of the bale has reached a value that would lead to a looking ahead activation of one of the drives 54 or 62 .
- the actual bale size d is compared with the difference of the desired bale diameter d target and the product of the time delay t 1 which is compared with the growth rate of the size of the bale ⁇ d/ ⁇ t that is calculated by multiplying the velocity v with the average growth rate of the bale ⁇ d/ ⁇ x referenced to the path length x (t 1 is the time delay between the activation of the drive 54 or 62 and the exact time at which the wrapping material reaches the baling chamber 24 ).
- the time delay t 1 associated with the particular wrapping material dispenser 44 or 58 selected should be used in step 102 .
- step 104 again follows. Otherwise, step 116 follows, in which the question is posed, whether the second wrapping material dispenser 58 had been selected in step 102 . If that is the case, the drive 62 is activated in step 118 , in order to insert the wrapping material (twine) into the baling chamber 24 .
- the subsequent step 120 determines whether the wrapping material has been grasped, that is, the free space between the rolls 64 and the drive 62 is running freely and the wrapping material is withdrawn from the supply 60 that can be detected by a sensor (not shown) on one of the rolls 64 . If that is the case, step 122 follows, otherwise step 120 repeats again.
- step 122 the towing vehicle 50 is stopped, which can be performed either by the operator who is advised by a corresponding display on a display arrangement 40 or automatically, in that velocity input arrangement 66 of the towing vehicle 50 is instructed correspondingly. Accordingly the towing vehicle 50 is first stopped (and the flow of harvested crop in the baling chamber 24 is stopped), when the wrapping material has been grasped by the bale 32 and carried along.
- step 124 the question is posed whether the bale 32 has been wrapped completely, that is, a desired number of layers of wrapping material have been applied. If that is not the case, step 124 again follows, otherwise the wrapping material is cut off and step 112 follows.
- step 126 follows upon step 116 , in which the drive 54 is activated and the towing vehicle 50 is stopped, this can be performed either by the operator who is advised correspondingly by the display arrangement 40 , or automatically, in that the velocity input arrangement 66 of the towing vehicle 50 is instructed correspondingly.
- the subsequent step 128 determines whether the wrapping material has been grasped, that is, the free running space between the rolls 48 and the drive 54 is running freely and the wrapping material is withdrawn from the supply 46 , which can be detected by means of an appropriate rotational speed sensor (not shown) on one of the rolls 48 . If that is the case, step 124 follows, otherwise step 128 .
- the activation of the drives 54 or 62 that is looking ahead has the advantage that the wrapping process begins as soon as the bale 32 has reached its desired bale diameter d target . Therefore the operating process is not delayed unnecessarily by the time delay between the activation of the drives 54 or 62 and the arrival of the forward end of the wrapping material in the baling chamber 24 . It should be noted that the order of the steps 126 and 128 could also be reversed. In addition it would be possible to activate the drives 54 or 62 in steps 118 and 126 only so long as the front end of the wrapping material is located directly in front of the baling chamber 24 and then to indicate on the display arrangement 40 whether the wrapping process should now be started. The operator can then bring about a wrapping of the bale 32 without any delays by an input in the input arrangement 42 .
- the present invention can be applied not only to the round baler 10 described above with variable baling chamber size, but also to a round baler, not shown, with a fixed baling chamber size.
- the actual density p of the bale in the baling chamber is detected by appropriate sensor technology along with the growth rate of the density ⁇ p/ ⁇ t.
- the drive for the introduction of the wrapping material into the baling chamber on the basis of the growth rate, the time delay between the actuation of the drive and the exact time at which the wrapping material reaches the baling chamber and the actual density is activated, looking ahead.
Abstract
An arrangement is provided for the wrapping of a bale. The arrangement has a drive for the introduction of a wrapping material into a baling chamber, a sensor for the detection of a physical size of a bale developing in a baling chamber, and a control arrangement connected with the drive and the sensor, to activate the drive based on the signals from the sensor. It is proposed that the control arrangement be operated to activate the drive looking ahead, based upon the detected growth rate in the size of the bale and the time delay between the activation of the drive and the exact time in which the wrapping material reaches the baling chamber, so that the wrapping material reaches the baling chamber when the size of the bale is equal to the desired size of the bale.
Description
- The invention concerns arrangements and processes for the wrapping of agricultural bales. The arrangement has a drive for the introduction of a wrapping material into a baling chamber, a sensor for the detection of a physical size of a bale being formed in the baling chamber, and a control arrangement connected to the drive and the sensor that can be operated so as to activate the drive based on the signals from the sensor.
- Round agricultural balers are usually equipped with arrangements for the wrapping of the finished bale that are brought into movement by a drive, and deliver twine, a net or a foil, that is deposited upon and envelops the rotating bale. Such arrangements are only activated after the completion of the bale, and can be induced by the operator by means of an input arrangement, after the operator has been notified by a signal in a display arrangement that the size of the bale or the density of the bale has reached a certain value. It has also been proposed that the drive of the arrangement for the wrapping of the bale be activated automatically, as soon as the sensor for the detection of the size of the bale indicates that the desired diameter of the bale had been reached (U.S. Pat. No. 5,551,218, EP1813146A2).
- In the case of an actuation of the arrangement for the wrapping of a bale based upon the size of the bale it is seen as detrimental that a certain time delay occurs between the actuation of the drive and the beginning of the actual wrapping process, that is occasioned by the distance between the arrangement and the baling chamber and the conveying velocity of the drive. This time delay slows the bale manufacturing process.
- The problem underlying the invention is thus seen in the need to make available an arrangement improved over the state of the art for the wrapping of a bale that is not subject to the aforementioned disadvantages or does so to a lesser degree.
- An arrangement for wrapping a bale in a round agricultural baler having a baling chamber of a fixed or variable bale size includes a drive, with which wrapping material can be introduced into the baling chamber, in order to wrap the finished bale located in the baling chamber. The wrapping material in particular, may be twine, net or foil.
- Moreover, the arrangement includes a sensor that detects the physical size of the bale developing in the baling chamber, which may be a size d in the radial direction (Diameter or radius or the like) or the density p. The sensor can detect the dimension d in the radial direction directly, in which, for example, the bale is scanned by a feeler or by waves, or indirectly, in that, for example, a sensor detects the amount of harvested crop entering the baling chamber that is successively integrated upward in a calculating arrangement. Analogously the density p of the bale can be detected by appropriate sensors in the side walls of the baling chambers (see EP0634094A1) or on the basis of the pressure in the cylinder that opens the back door of the baler (compare EP1593299A1 and the state of the art cited there) or indirectly in that, for example, a sensor is used to detect the amount of harvested crop entering the baling chamber that is successively integrated upward in a calculating arrangement.
- An electronic control arrangement is connected with the drive and the sensor. During the baling operation the control arrangement detects the growth rate Δd/Δt or Δp/Δt of the size of the bale that is the actual change in the size per unit of time. In addition, the control arrangement has available information regarding the time delay t1 between the activation of the drive and the time at which the wrapping material reaches the baling chamber and that depends on the conveying velocity of the drive and the distance between the forward end of the wrapping material and the baling chamber. The control arrangement activates the drive looking ahead at the exact time before the bale has reached the desired size, in order to assure that the wrapping material reaches the baling chamber exactly at the time at which the size of the bale corresponds to the desired size. Accordingly the control arrangement activates the drive at a growth rate Δd/Δt, a time delay t1 and a target size of the bale of dtarget as soon as the diameter d is equal to the equation d=dtarget−t1×Δd/Δt (for example, at a growth rate of the density Δp/Δt, a time delay t1 and a target density of the bale of ptarget as soon as the density is equal to the expression p=ptarget−t1×Δp/Δt).
- In this way, undesired time delays in the supply of the wrapping material to the baling chamber are avoided.
- In a preferred embodiment of the invention the control arrangement is supplied with information regarding the actual forward propulsion velocity that can be detected by a sensor located on board the baler or the towing vehicle. However, the forward propulsion velocity may also be a target value that has been stored in the drive control arrangement of the towing vehicle and is transmitted to the control arrangement over a data bus (CAN or ISO BUS).
- The growth rate of the bale Δd/Δt or Δp/Δt can be determined on the basis of the signals of the sensor for the detection of the size or the density of the bale that is growing in the baling chamber. Alternatively or additionally a further sensor is used to detect the amount of the harvested crop entering the baling chamber, that can be fastened, for example, to the tow bar or the underside of the baler and determines the contour of the swath that is to be picked up upstream of the pickup of the baler by means of optical waves (laser distance measurement) or acoustic waves (ultrasound waves). The incoming amount of material can also be detected optically or mechanically by an appropriate probe, or by monitoring the drive torque of the pickup or of a rotor following it downstream. Alternatively or additionally the incoming amount of material is derived from existing yield data that has been detected during a previous operating cycle (mowing or swaths) by means of appropriate sensors, geo-referenced and stored in memory and made available to the control arrangement.
- The information regarding the actual forward operating velocity in turn is used by the control arrangement for the exact determination of the rate of growth Δd/Δt or Δp/Δt of the size of the bale, if the forward propulsion velocity is not constant. In the individual case an average change in the size of the bale can be calculated for this and referenced to the path length x for the change in the size of the bale Δd/Δx or Δp/Δx multiplied by the immediate forward velocity v, in order to determine the growth rate Δd/Δt or Δp/Δt in the size of the bale. The average change in size of the bale referenced to the path length can be determined continuously from the growth rates and associated forward propulsion velocities described in the previous paragraph.
- During the wrapping process of the bale and its following ejection, the baler should not move forward (as long as this is not a continuously operating baler with a pre-chamber, in which the incoming harvested crop is stored temporarily during the wrapping process) in order to prevent that additional harvested crop intrudes into the baling chamber. Therefore the invention proposes that the control arrangement be connected to a display arrangement that is associated with the operating stand of the operator of the towing vehicle (or a self-propelled baler). On this display arrangement the operator is advised to stop the towing vehicle as soon as the wrapping process has begun. Alternatively or additionally the control arrangement is connected with a velocity input arrangement of the towing vehicle in order to induce the latter to stop the baler automatically at the beginning of the wrapping process.
- Some wrapping materials (especially twine) are entangled more easily in the bale, if harvested crop still enters the baling chamber at the beginning of the wrapping process. Therefore the invention proposes that the drive and the display arrangement and/or the velocity input arrangement on the towing vehicle be controlled in such a way that harvested crop continues to enter the baling chamber when the beginning end of the wrapping material enters into the baling chamber. As soon as the wrapping material has been grasped by the bale, however, the baler is stopped by the control arrangement in the aforementioned manner. In the case of other wrapping materials (net or foil) however, the baler is stopped by the control arrangement when the drive is activated for the first time.
- In a possible embodiment of the invention the control arrangement activates the drive at the exact time selected in this way so that the wrapping material reaches the baling chamber exactly when the size of the bale equals the desired size and permits it to continue running automatically until the bale has grasped the wrapping material which can be detected by an appropriate sensor and transmitted to the control arrangement which then stops the drive. Accordingly the introduction of the wrapping material has been completely automated.
- On the other hand, another embodiment provides that the control arrangement activate the drive automatically until the wrapping material is located immediately ahead of the baling chamber, but has not yet been grasped by the bale. Subsequently the drive is activated only upon an operator's input in an operator's input arrangement, until the bale has grasped the wrapping material which is recognized by means of an appropriate sensor and transmitted to the control arrangement which then turns off the drive. Accordingly an operator's control exists for the initiation of the actual wrapping process.
- The drawings show an embodiment of the invention that shall be described in greater detail in the following:
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FIG. 1 is a schematic side view of a towing vehicle and a round baler with an arrangement for the wrapping of a bale; and, -
FIG. 2 is a flow chart according to which the control of the arrangement operates. -
FIG. 1 shows around baler 10 with ahousing 12, that can be coupled by means of atow bar 14 to atowing vehicle 50 in the form of an agricultural tractor, in order to be towed across a field in a direction of operation to the right inFIG. 1 , and is supported onwheels 16. Thehousing 12 is composed of a forwardrigid housing half 18 and arear housing half 20 that can be pivoted, these are connected to each other so they can pivot by ajoint 19 located upward. Thehousing 12 carries a multitude of rolls. Severalendless conveying elements 22, arranged alongside each other, extend over the rolls and largely surround thebaling chamber 24 that is also enclosed by side walls of thehousing 12. In this embodiment theconveying elements 22 are configured as belts. Aninlet 26 is provided in the lower region of thebaling chamber 24, which is bordered to the rear by aroll 28 and permits entry into thebaling chamber 24 by crop taken up by apickup 30. - The
round baler 10 includesseveral conveying elements 22 arranged alongside each other. They are brought into movement during the harvesting operation and enclose abale 32 being formed in thebailing chamber 24 to the front, above and to the rear. The configuration and the functions of such a round baler are known in themselves. Reference is made to the disclosure of DE 10153540A whose contents are included by reference in the present document. Bales of increasing diameter are characterized by call-outs - A
sensor 34 is fastened to the upper rear end of therear housing half 20 that can be pivoted. Thesensor 34 is an ultrasonic distance measuring device that is based on a measurement of running time and detects the spacing between its underside and theadjoining conveying elements 22 that are located directly in contact with the outer circumference of thebale 32. In this way thesensor 34 makes available information regarding the diameter of thebale 32. - Moreover, the
round baler 10 includes a firstwrapping material dispenser 44 that is arranged on the rear side of the pivotedrear housing half 20. The wrappingmaterial dispenser 44 includes asupply 46 of wrapping material, that consist of a rolled up net or a foil, whose forward unrolled end is conducted through pairs ofrolls 48. Therolls 48 can be brought into rotation by adrive 54 so that the forward end of the wrapping material is drawn along by the conveyingdevices 22 when thedrive 54 is activated, and reaches the balingchamber 24 and there encloses thebale 32. A free section (not shown) is arranged between thedrive 54 and therolls 48, so that thebale 32 can draw off the wrapping material from thesupply 46 without rotating thedrive 54 with it. In addition, the firstwrapping material dispenser 44 includes a separatingarrangement 56 in order to cut off the wrapping material after the wrapping process. - A second
wrapping material dispenser 58 is located on the forward side of theround baler 10 and includes asupply 60 of wrapping material that consists of twine. The secondwrapping material dispenser 58 includes a pair ofrolls 64 that can be driven by means of adrive 62, in order to introduce the wrapping material into the balingchamber 24, so that it is carried along there by thebale 32 and encloses it. The wrapping material is successively conducted across the width of thebale 32, in that the entirewrapping material dispenser 58 or an outlet opening is continuously moved sideways. A free section (not shown) is arranged between thedrive 62 and therolls 64, so that thebale 32 can withdraw the wrapping material during the withdrawal from thesupply 60, without rotating thedrive 62 along with it. In addition, the firstwrapping material dispenser 44 includes a separating arrangement (not shown) in order to be able to cut off the wrapping material after the wrapping process. - The
sensor 34 is connected with acontrol arrangement 38 over a bus, that in turn controls adisplay arrangement 40 in the operator'scab 52 of the towingvehicle 50 and receives instruction from aninput arrangement 42 also located there. In addition, thecontrol arrangement 38 is connected with thedrives vehicle 50, avelocity sensor 68 in the form of a rotational speed sensor to detect the rotational speed of thewheels 16 and athroughput sensor 70 that is mounted on the underside of thetow bar 14 and that scans the swath that is to be taken up by thepickup 30 optically or with ultrasonic waves in order to determine its volume. -
FIG. 2 shows the function of thecontrol arrangement 38 on the basis of a flow chart. After the start instep 100 the operator is induced instep 102 by the display of an appropriate text on thedisplay arrangement 40 to select the wrapping material, for the purpose of which corresponding options can be selected by means of the input arrangement 42 (no wrapping material, twine and foil or net, depending on thesupply 46 located in the first wrapping material dispenser). In addition, the desired bale diameter dtarget is provided as input in theinput arrangement 42. - The process originates from the fact that the towing
vehicle 50 tows thebaler 10 across a field and the latter continuously takes up harvested crop and forms it into abale 32. The velocity of the towingvehicle 50 may be provided as input by the operator or controlled automatically. For this purpose reference is made to EP 1813146A2 whose disclosure is incorporated by reference into the present document. In thenext step 104 the diameter of thebale 32 is determined on the basis of the signals of thesensor 70. Then step 106 follows in which an average change in size of the bale is referenced to the length of the path x (Δd/Δx). Here reference is made to the signals of thesensor 34, thevelocity sensor 68 and (optionally) of the through putsensor 70. This change in size is averaged over a last distance covered of several meters. It would also be conceivable to store a yield card in thecontrol arrangement 38 and to recall the distance covered on the basis of the actual position that is detected by anantenna 72 for the reception of signals of a satellite based position detection system. - Following this, step 108 questions whether a wrapping process is contemplated. If that is not the case,
step 110 follows, in which the question is posed whether the actual diameter d of thebale 32 is equal to the desired diameter dtarget. If that is not thecase step 104 again follows, otherwise step 112 is used, in which the towingvehicle 50 is stopped as described further in the following, and then thebale 32 has been ejected. Subsequently the towingvehicle 50 resumes the forward operation in order to createfurther bales 32. Then step 100 again follows, althoughstep 104 could follow directly. - In
case step 108 indicates that a wrapping process is intended thecontrol arrangement 38 then determines in the followingstep 114 whether the size of the bale has reached a value that would lead to a looking ahead activation of one of thedrives drive wrapping material dispenser step 102. - In case that a diameter d has not yet been reached, which requires an activation looking ahead of one of the
drives step 104 again follows. Otherwise,step 116 follows, in which the question is posed, whether the secondwrapping material dispenser 58 had been selected instep 102. If that is the case, thedrive 62 is activated instep 118, in order to insert the wrapping material (twine) into the balingchamber 24. Thesubsequent step 120 determines whether the wrapping material has been grasped, that is, the free space between therolls 64 and thedrive 62 is running freely and the wrapping material is withdrawn from thesupply 60 that can be detected by a sensor (not shown) on one of therolls 64. If that is the case,step 122 follows, otherwise step 120 repeats again. In thefollowing step 122 the towingvehicle 50 is stopped, which can be performed either by the operator who is advised by a corresponding display on adisplay arrangement 40 or automatically, in thatvelocity input arrangement 66 of the towingvehicle 50 is instructed correspondingly. Accordingly the towingvehicle 50 is first stopped (and the flow of harvested crop in the balingchamber 24 is stopped), when the wrapping material has been grasped by thebale 32 and carried along. In thefollowing step 124 the question is posed whether thebale 32 has been wrapped completely, that is, a desired number of layers of wrapping material have been applied. If that is not the case, step 124 again follows, otherwise the wrapping material is cut off and step 112 follows. - In case that step 116 has shown that not twine, but foil or net is to be used as wrapping material, then step 126 follows upon
step 116, in which thedrive 54 is activated and the towingvehicle 50 is stopped, this can be performed either by the operator who is advised correspondingly by thedisplay arrangement 40, or automatically, in that thevelocity input arrangement 66 of the towingvehicle 50 is instructed correspondingly. Thesubsequent step 128 determines whether the wrapping material has been grasped, that is, the free running space between therolls 48 and thedrive 54 is running freely and the wrapping material is withdrawn from thesupply 46, which can be detected by means of an appropriate rotational speed sensor (not shown) on one of therolls 48. If that is the case,step 124 follows, otherwise step 128. - The activation of the
drives bale 32 has reached its desired bale diameter dtarget. Therefore the operating process is not delayed unnecessarily by the time delay between the activation of thedrives chamber 24. It should be noted that the order of thesteps drives steps chamber 24 and then to indicate on thedisplay arrangement 40 whether the wrapping process should now be started. The operator can then bring about a wrapping of thebale 32 without any delays by an input in theinput arrangement 42. - It should be noted, that the present invention can be applied not only to the
round baler 10 described above with variable baling chamber size, but also to a round baler, not shown, with a fixed baling chamber size. In the latter case the actual density p of the bale in the baling chamber is detected by appropriate sensor technology along with the growth rate of the density Δp/Δt. There the drive for the introduction of the wrapping material into the baling chamber on the basis of the growth rate, the time delay between the actuation of the drive and the exact time at which the wrapping material reaches the baling chamber and the actual density is activated, looking ahead. - Having described the preferred embodiment, it will become apparent that various modifications can be made without departing from the scope of the invention as defined in the accompanying claims.
Claims (12)
1. An arrangement for the wrapping of a bale, the arrangement having:
a drive for the introduction of a wrapping material into a baling chamber;
a sensor for the detection of the physical size of a bale being formed in the baling chamber; and,
a control arrangement connected to the drive and the sensor that is arranged so as to activate the drive based upon the signals of the sensor;
wherein the control arrangement is activated looking ahead based upon a detected growth rate of the bale and the time delay between the activation of the drive and the exact time the wrapping material reaches the baling chamber, so that the wrapping material reaches the baling chamber when the size of the bale equals the desired size.
2. An arrangement according to claim 1 , wherein the control arrangement is supplied with information regarding the forward operating velocity.
3. An arrangement according to claim 1 , wherein the control arrangement is operated so as to determine the growth rate of the bale on the basis of the signals of at least one of the sensors and a further sensor to determine at least one of the amount of the harvested crop entering the baling chamber and yield data stored in memory.
4. An arrangement according to claim 2 , wherein the control arrangement is operated so as to calculate an average growth rate of the bale referenced to the path length covered and to multiply this by the immediate forward propulsion velocity in order to determine the growth rate of the size of the bale.
5. An arrangement according to claim 1 , wherein the control arrangement is at least one of: connected with a display arrangement through which an operator is provided with an advice to stop the towing vehicle; and connected with a velocity input arrangement of the towing vehicle in order to stop the towing vehicle at the beginning of the wrapping process.
6. An arrangement according to claim 5 , wherein the control arrangement is one of operated so as to activate the drive and the display arrangement and the velocity input arrangement of the towing vehicle in such a way that harvested crop continues to enter the baling chamber when the wrapping material reaches the baling chamber.
7. An arrangement according to claim 6 , wherein the control arrangement is operated so as to automatically activate the drive until the bale has grasped the wrapping material.
8. An arrangement according to claim 1 , wherein the control arrangement is operated so as to automatically activate the drive until the wrapping material is located shortly before the baling chamber but has not yet been grasped by the bale and to again activate the drive subsequently following an operator's input in an operator's input arrangement, until the bale has grasped the wrapping material.
9. An arrangement according to claim 1 , wherein the physical size of the bale is one of its density and its dimension in the radial direction.
10. A baler having a baling chamber and an arrangement having:
a drive for the introduction of a wrapping material into a baling chamber;
a sensor for the detection of the physical size of a bale being formed in the baling chamber; and,
a control arrangement connected to the drive and the sensor that is arranged so as to activate the drive based upon the signals of the sensor;
wherein the control arrangement is activated looking ahead based upon a detected growth rate of the bale and the time delay between the activation of the drive and the exact time the wrapping material reaches the baling chamber, so that the wrapping material reaches the baling chamber when the size of the bale equals the desired size.
11. A baler according to claim 10 , wherein the wrapping material consists of one of twine, net, or a foil.
12. A process for the wrapping of a bale, having the following steps:
making a drive available for the introduction of a wrapping material into a baling chamber;
making a sensor available for the determination of a physical size of a bale developing in a baling chamber;
making a control arrangement available that is connected to the drive and the sensor, that activates the drive based upon the signals of the sensor;
wherein the control arrangement activates, looking ahead, the drive based on the detected growth rate of the bale and the time delay between the activation of the drive and the exact time that the wrapping material reaches the baling chamber, so that the wrapping material then reaches the baling chamber when the size of the bale equals the desired size.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102008043837.5 | 2008-11-19 | ||
DE102008043837 | 2008-11-19 | ||
DE102009002439.5 | 2009-04-16 | ||
DE102009002439A DE102009002439A1 (en) | 2008-11-19 | 2009-04-16 | Arrangement and method for wrapping a bale |
Publications (1)
Publication Number | Publication Date |
---|---|
US20100122632A1 true US20100122632A1 (en) | 2010-05-20 |
Family
ID=42105270
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US12/608,252 Abandoned US20100122632A1 (en) | 2008-11-19 | 2009-10-29 | Arrangement and Process For The Wrapping Of A Bale |
Country Status (2)
Country | Link |
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US (1) | US20100122632A1 (en) |
DE (1) | DE102009002439A1 (en) |
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US8011295B1 (en) * | 2010-04-08 | 2011-09-06 | Cnh America Llc | Fully automated twine wrapping system for a round baler having a simplified operator interface |
US20130116883A1 (en) * | 2011-11-09 | 2013-05-09 | Deere & Company | Arrangement and method for the automatic documentation of situations during field work |
WO2013096959A3 (en) * | 2011-12-23 | 2013-10-24 | Agco Corporation | Variable speed round bale chamber control using bale growth rate |
US20140013970A1 (en) * | 2012-07-16 | 2014-01-16 | Agco Corporation | Volumetric baling rate monitor for round baler |
US20140338548A1 (en) * | 2011-12-22 | 2014-11-20 | Agco Corporation | Round baler wrapping with multiple stationary strands |
EP3123858A1 (en) * | 2015-07-29 | 2017-02-01 | CLAAS Omaha Inc. | Agricultural system |
US9949441B2 (en) * | 2011-12-23 | 2018-04-24 | Agco Corporation | Variable speed round bale chamber control with accumulator sensor |
US20180325013A1 (en) * | 2017-05-09 | 2018-11-15 | Cnh Industrial America Llc | Tractor-Trailer Combinations |
CN110612544A (en) * | 2017-05-09 | 2019-12-24 | 凯斯纽荷兰(中国)管理有限公司 | Harvesting method and apparatus |
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DE102011109890B4 (en) * | 2011-08-10 | 2013-07-04 | Maschinenfabrik Bernard Krone Gmbh | Round agricultural baler |
DE102015211000A1 (en) | 2015-06-16 | 2016-12-22 | Deere & Company | Round baler with means for wrapping a bale |
US10289696B2 (en) | 2016-10-31 | 2019-05-14 | Deere & Company | Yield mapping for an agricultural harvesting machine |
IT201900002187A1 (en) * | 2019-02-14 | 2020-08-14 | Dinamica Generale S P A | Hay analysis system associated with a baler |
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US8011295B1 (en) * | 2010-04-08 | 2011-09-06 | Cnh America Llc | Fully automated twine wrapping system for a round baler having a simplified operator interface |
US20130116883A1 (en) * | 2011-11-09 | 2013-05-09 | Deere & Company | Arrangement and method for the automatic documentation of situations during field work |
US20140338548A1 (en) * | 2011-12-22 | 2014-11-20 | Agco Corporation | Round baler wrapping with multiple stationary strands |
US10098282B2 (en) | 2011-12-23 | 2018-10-16 | Agco Corporation | Variable speed round bale chamber control using bale growth rate |
WO2013096959A3 (en) * | 2011-12-23 | 2013-10-24 | Agco Corporation | Variable speed round bale chamber control using bale growth rate |
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CN110612544A (en) * | 2017-05-09 | 2019-12-24 | 凯斯纽荷兰(中国)管理有限公司 | Harvesting method and apparatus |
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