A baler-wrapper combination includes a bale forming device and at least one wrapping device with a bale support. The bale support being in the bale depositing position has a lateral offset to a vertical center plane of the bale forming device and is entirely positioned on one side of the vertical plane. A bale is moved on the bale support being in the bale receiving position and is wrapped. The wrapped bale is deposited from the bale support being in the bale depositing position on the ground.
An apparatus and method for wrapping an object. The object is on an object support. A wrapping unit drive rotates a wrapping unit part with a holder for wrapping material around the object. A barrier in a protecting position provides a mechanical safety mechanism. When the barrier is moved into a further position, an interrupter is moved into an interrupting position and interrupts a supply connection for the wrapping unit drive. Thereby the wrapping unit part is no longer rotated.
A01F 15/07 - Rotobalers, i.e. machines for forming cylindrical bales by winding and pressing
B65B 11/02 - Wrapping articles or quantities of material, without changing their position during the wrapping operation, e.g. in moulds with hinged folders
B65B 57/00 - Automatic control, checking, warning or safety devices
A01F 21/00 - Devices for protecting human beings for threshing machines or baling presses
3.
Apparatus and method for forming and quickly wrapping a bale in a bale forming chamber
An apparatus and a method for forming and wrapping a bale in a bale forming chamber into wrapping material includes a wrapping material conveying device that conveys a web of wrapping material towards a wrapping material inlet. A severing device severs the web at a severing location. The wrapping material conveying device moves the web towards the inlet, forms a leading segment of the web, and keeps the leading segment in an intermediate web providing position between the wrapping material inlet and the severing location without moving the leading segment. For starting the wrapping procedure, the web is conveyed towards the inlet.
A grinding device and a grinding method for grinding at least one knife. The grinding device includes a frame with a knife holder and a grinding unit comprising a grinding head, a grinding head holder, and a grinding head drive assembly. The grinding unit can selectively be connected with the frame or can be disconnected from the frame and can be placed on a cutting assembly with knives to be ground. In both operating modes the grinding head drive assembly rotates the grinding head and moves the rotating grinding head with respect to the grinding head holder.
A bale forming apparatus including a bale forming device providing a bale forming chamber, a rotatable driving member, a shaft, and a free-wheel clutch provided between the shaft and the rotatable driving member. The shaft drives at least temporarily the rotatable driving member. The free-wheel clutch transfers a rotation of the shaft onto the driving member. The rotated driving member drives at least one part of the bale forming device. The bale forming device forms a bale in the provided bale forming chamber. At least one time the rotatable driving member is rotated with respect to the shaft. The free-wheel clutch enables this rotation of the rotatable driving member.
An agricultural mowing machine comprises a frame (3) having a coupling device for coupling the machine to a tractor. A carrying arm (7) is pivotally connected to the frame (3). A first hydraulic cylinder (17) is configured to pivot the carrying arm (7) relative to the frame (3). A lateral displacement structure is connected to the carrying arm (7) in such a manner that the lateral displacement structure can be displaced relative to the carrying arm (7) in a lateral direction between an inner position and an outer position. A second hydraulic cylinder (19) is configured to move the lateral displacement structure relative to the carrying arm (7). A mowing unit (5) is connected to the lateral displacement structure. The mowing unit (5) can be moved between an approximately horizontal working position, a raised headland position, and a transport position. The first hydraulic cylinder (17) and the second hydraulic cylinder (19) are connected to each other in such a manner that when the mowing unit (5) is in its transport position and the first or second hydraulic cylinder (19) is actuated by means of pressurized hydraulic fluid, hydraulic fluid discharged from said first or second hydraulic cylinder (19) is supplied under pressure to the other of the first or second hydraulic cylinder (19) for pivoting the carrying arm (7) so as to move the mowing unit (5) from the transport position towards the headland position displacing the lateral displacement structure outwards relative to the carrying arm (7) simultaneously.
A01D 34/66 - MowersMowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle with two or more cutters
A mower (1) having a plurality of mowing members (2), each mowing member (2) mounted rotatably about a vertical rotation axis (3) to a support (4), and each mowing member (2) having an electric drive motor (5) couplable thereto and arranged to drive the mowing member (2) to rotate along a circular trajectory (6) coaxial to the vertical rotation axis (3) and the mower (1) further having at least one control device (7) arranged to control at least one of the electric drive motors (5) move the mowing member (2) to a pre-defined position on its circular trajectory (6).
A01D 34/66 - MowersMowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle with two or more cutters
A01D 34/78 - Driving mechanisms for the cutters electric
A baler-wrapper combination comprises a bale forming device (40) and at least one wrapping device (8.r, 13. r) with a bale support (12.r.1, 12.r.2, 14. r). The bale support (12.r.1, 12.r.2, 14. r) can be moved from a bale receiving position into a bale depositing position. The bale support (12.r.1, 12.r.2, 14. r) being in the bale depositing position has a lateral offset to a vertical center plane (P) of the bale forming device (40) and is entirely positioned on one side of the vertical plane (P). A bale (B.2) is moved on the bale support (12.r.1, 12.r.2, 14. r) being in the bale receiving position and is wrapped. The wrapped bale (B.2) is deposited from the bale support (12.r.1, 12.r.2, 14. r) being in the bale depositing position on the ground.
A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.
The invention refers to a bale forming and wrapping apparatus and method. A bale forming means (7.1, 7.2,... ) forms a bale in a bale forming chamber. The bale in the bale forming chamber is wrapped by means of a wrapping device. A web (8) of wrapping material is pulled from a reservoir which is held by an unrolling station. A wrapping material conveying device (11.d, 11.i) conveys the web (8) towards a wrapping material inlet (In) extending along an inlet longitudinal axis (IA). A pusher plate drive (13.1) pivots at least one pusher plate (3.1). The pivoted pusher plate (3.1) hits the conveyed web (8) and pushes the web (8) towards the wrapping material inlet (in). The pusher plate pivoting axis (PA. I) is perpendicular to the inlet longitudinal axis (IA), e.g. is vertical.
The invention refers to a grinding device and a grinding method for grinding at least one knife. The grinding device comprises a frame (20) with a knife holder(13.1, 13.2) and a grinding unit (30) comprising a grinding head (21), a grinding head holder (3.1, 3.2, 33.1, 33.2), and a grinding head drive assembly (7.1, 7.2). The grinding unit (30) can selectively be connected with the frame (20) or can be disconnected from the frame (20) and can be placed on a cutting assembly with knives to be ground. In both operating modes the grinding head drive assembly (7.1, 7.2)rotates the grinding head (21) and moves the rotating grinding head (21) with respect to the grinding head holder (3.1, 3.2, 33.1, 33.2).
A bale forming apparatus (1) forms a plurality of bales and deposits every bale at a location which is suitable for depositing a bale there. A ground property sensor measures a value indicative of a ground property. The bale forming apparatus (1) receives loose material and processes the loose material in a processing chamber (Ch) and subsequently in a further processing chamber (Ch', Ch''). The bale formation is completed in the further processing chamber (Ch', Ch''). The further processing chamber (Ch', Ch'') is positioned vertically or angularly above a bale carrier. The formed bale is deposited at a suitable location.
A wrapping apparatus and A wrapping method are provide to wrap an object in a chamber into a web of wrapping material. The web is moved from a reservoir outside of the chamber. A tag applicator applies a tag on the web in an application position which is between a wrapping material reservoir and a wrapping material inlet. A tag reader monitors whether or not a tag is conveyed in the chamber along the tag reader. If no tag is detected, an alert is generated that the object is not properly wrapped.
B65B 57/18 - Automatic control, checking, warning or safety devices causing operation of audible or visible alarm signals
A01F 15/07 - Rotobalers, i.e. machines for forming cylindrical bales by winding and pressing
B65B 11/04 - Wrapping articles or quantities of material, without changing their position during the wrapping operation, e.g. in moulds with hinged folders the articles being rotated
B65B 27/12 - Baling or bundling compressible fibrous material, e.g. peat
B65B 57/02 - Automatic control, checking, warning or safety devices responsive to absence, presence, abnormal feed, or misplacement of binding or wrapping material, containers, or packages
G06K 7/10 - Methods or arrangements for sensing record carriers by electromagnetic radiation, e.g. optical sensingMethods or arrangements for sensing record carriers by corpuscular radiation
14.
Self-centering belt-roller arrangement and belt guiding method
A belt-roller arrangement with a deflecting roller and an endless flexible belt and a method for guiding such a belt over such a roller are disclosed. The roller body of the roller includes two deformable roller body segments and a rigid roller body segment part which is—in an axial direction—positioned between these two deformable segments. The belt is entirely guided over the central rigid segment part and at least partially over both deformable segments. The belt run is automatically corrected.
F16H 7/02 - Gearings for conveying rotary motion by endless flexible members with beltsGearings for conveying rotary motion by endless flexible members with V-belts
F16H 7/18 - Means for guiding or supporting belts, ropes, or chains
A wrapping device and a web supplying method are used on board of an agricultural harvester. A supply reel with wrapping material is held between two parts of an unrolling station. A web moving member moves a web taken from this supply reel away from the unrolling station. For replacing the supply reel with a further supply reel, the further supply reel is placed on at least one supporting roller. The or every supporting roller is stationary and is positioned angularly below the unrolling station and between two unrolling station parts. The further supply reel on the supporting roller is shifted in a shifting direction towards an unrolling station part.
A01F 15/07 - Rotobalers, i.e. machines for forming cylindrical bales by winding and pressing
B65B 11/02 - Wrapping articles or quantities of material, without changing their position during the wrapping operation, e.g. in moulds with hinged folders
A scale measures a weight force occurring on board of an agricultural implement(1). A towing unit (19) of the implement (1) is connected with a hitch (18) of a propelled vehicle (610). An axle weighing cell (46B) on board of the implement (1) measures the load onto an implement axle(48). A load weighing cell (46A) is mounted on board of the vehicle (610) and measures the vertical load applied onto the hitch(18). An evaluating unit (36) on board of the implement (1) processes signals from both sensors(46A, 46B).
G01G 19/12 - Weighing apparatus or methods adapted for special purposes not provided for in groups for incorporation in vehicles having electrical weight-sensitive devices
A01F 15/08 - Baling presses for straw, hay or the like Details
17.
BALE FORMING AND WRAPPING APPARATUS WITH A GUIDED WEB MOVING MEMBER
The invention refers to a bale forming and wrapping apparatus and a baleforming and wrapping method. A bale forming means (40, 41.1, 41.2, 42, 44) forms from loose material a bale (B) in a bale forming chamber. A web moving member (3, 20, 48) moves a web (30) of wrapping material towards a wrapping material inlet (15) into the bale forming chamber. A guiding member guides the web moving member (3, 20, 48). A slack leading segment (35) of the web (30) is carried by a supporting plate (3) of the web moving member (3, 20, 48).Preferably adownholder unit (48) keeps the leading segment (35) on the moved supporting plate (3). The leading segment (35) remains slack while the web moving member (3, 20,48) moves the web (30).
A bale forming means forms a bale (B) in a bale forming chamber. A stationary casing part and a discharge gate being in a bale forming position together surround the bale forming chamber. A wrapping material guiding device(50.1, 0.2, 51) conveys a web (52) of wrapping material towards the bale forming chamber. The discharge gate is moved into a bale ejecting position. An adjacent discharge gate part is moved with respect to a further discharge gate part away from the stationary casing part. An adjacent wrapping material guiding member (50.1) is moved with respect to a further wrapping material guiding part (50.2) away from the stationary casing part.
A bale is formed and wrapped in a bale forming chamber into a web of wrapping material. The web is conveyed towards a wrapping material inlet (92) and is injected through this inlet (92) into the bale forming chamber. A web guiding device (100)being in a conveying position and a bale forming means together convey the web towards the wrapping material inlet (92). In addition a web processing member (251) being in a web touching position processes the web. A coupling member (53.1, 53.2, 56) transfers a movement of the web processing member (251) from a remote position into the web touching position onto the web guiding device (100)such that the web guiding device (100)is transferred from a parking position into the conveying position.
An apparatus and a method for forming a bale from loose material are disclosed. A feeder feeds loose material to a bale former. The bale former forms a bale from loose material. A feeding-side output shaft drives the feeder. A forming-side output shaft drives the bale former. An input shaft drives both output shafts. A torque measuring arrangement measures a value indicative of the input torque provided by the input shaft. If the input torque value exceeds a given torque threshold, a control unit triggers the bale former for reducing the torque consumption taken from the forming-side output shaft.
A bale forming apparatus and a bale forming method form cylindrical bales. A bale forming chamber is surrounded by a bale forming mechanism. A bale is formed in this bale forming chamber. This bale is pushed onto a bale supporting construction. This bale supporting construction buffers the bale. A further bale is created in the bale forming chamber. One pushing member pushes the old bale from the bale forming chamber onto the bale supporting construction. This pushing member is connected with a holding device and performs a movement on a circular path for pushing the bale. The drive rotates the holding device around a rotating axis. A pivotal guiding member is pivoted into a guiding position and contributes to provide a bale forming chamber for the new bale.
A baler baling chamber has a movable chamber part pivotally mounted at a fixed chamber part. Several conveying units convey the bale along a circumferential wall. The baler can be transferred into a bale ejecting mode by pivoting the movable chamber part away from the fixed chamber part. One conveying unit is mounted at the moveable chamber part and adjacent to the fixed chamber part. In a bale forming mode, the adjacent conveying unit engages into a receiving aperture in the fixed chamber part and conveys loose material into the bailing chamber. The adjacent conveying unit can be pivoted away from the fixed chamber part and out of the receiving aperture increasing the aperture for ejecting a bale out of the bale forming chamber as the adjacent conveying unit is pivoted out of the receiving aperture.
A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.
A feeding apparatus and a feeding method are disclosed. The apparatus and the method feed wrapping material towards an inlet of a chamber. An object in this chamber is to be wrapped with wrapping material injected into the chamber. A wrapping material supplying unit supplies wrapping material from a reservoir towards the inlet such that a loose end area is formed. A drive drives a conveying surface of a wrapping material feeding unit either in a feeding direction or in a cleaning direction. If moved in the feeding direction, the conveying surface conveys the loose end area towards the inlet. If moved in the cleaning direction, the conveying surface cleans the inlet from debris.
A01F 15/08 - Baling presses for straw, hay or the like Details
B65B 63/04 - Auxiliary devices, not otherwise provided for, for operating on articles or materials to be packaged for folding or winding articles, e.g. gloves or stockings
A bale forming apparatus and a bale forming method for forming cylindrical bales of material are provided. An intake device conveys material through an outlet into a bale forming chamber which is surrounded by a bale forming mechanism and which is situated adjacent to the outlet. A front housing part and a rear housing part are adapted for being connected with each other to form a bale forming housing. The rear housing part together with a bale on a bale carrying member can be pivoted with respect to the front housing part around an angle of at least 90 degrees. The rear housing part can be pivoted from a bale receiving position into a bale ejecting position where the bale is ejected.
A method is provided for moving backwards a combination and an assembly is provided for assisting the backward movement of a combination into an area, which might be surrounded by obstacles. The combination includes a propelled vehicle and an implement. The implement can pivot with respect to the vehicle. The vehicle moves the combination backwards. A pivoting angle sensor on board of the combination measures the pivoting angle of the implement with respect to the vehicle. A distance sensor on board of the implement measures the distance to a border of the area. A path sensor on board of the implement measures the length of a path along which the implement is moved. A computer on board of the implement calculates a required change of the travelling direction of the vehicle by using the pivoting angle, the path length, and the measured distance. A signal indicative of the required change is transmitted to an output unit.
A bale forming apparatus and a bale forming method form cylindrical bales. A bale forming chamber is surrounded by a bale forming mechanism. A bale is formed in this bale forming chamber. This bale is pushed onto a bale supporting construction. This bale supporting construction buffers the bale. A further bale is created in the bale forming chamber. One pushing member pushes the old bale from the bale forming chamber onto the bale supporting construction. This pushing member is connected with a holding device and performs a movement on a circular path for pushing the bale. The drive rotates the holding device around a rotating axis. A pivotal guiding member is pivoted into a guiding position and contributes to provide a bale forming chamber for the new bale.
A bale forming apparatus and a bale forming method form cylindrical bales. An intake device conveys material into a bale forming chamber. A bale is formed in the bale forming chamber. A bale pushing device pushes the bale onto a bale supporting construction being in a bale receiving position. This bale supporting construction buffers the bale. A pivoting mechanism pivots the bale supporting construction carrying the bale from the bale receiving position into a bale supporting position. The distance between the bale on the bale supporting construction and the outlet is increased. The creation of a further bale in the bale forming chamber is started. The bale supporting construction carrying the bale is pivoted from the bale supporting position into a bale ejecting position. The bale is ejected.
A bale forming apparatus and a bale forming method are provided. A bale is formed in a bale forming chamber. A bale pushing device pushes the bale away from an outlet onto a bale supporting construction. A guiding element is pivoted into a guiding position. The guiding element in the guiding position contributes to guide a bale forming mechanism such that a bale forming device a chamber is also provided when the bale is on the bale supporting construction. A new bale is formed in the provided bale forming chamber. The bale pushing device is pivoted around the pivoting axis in a pushing direction and backwards and performs a reciprocating movement. Pivoting the bale pushing device in the pushing direction causes the guiding element to be pushed and pivoted into the guiding position.
A bale forming apparatus and a bale forming method form cylindrical bales. An intake device conveys material into a bale forming chamber surrounded by a bale forming mechanism. A bale in this bale forming chamber is formed by means of the bale forming mechanism. A pivotal guiding member is mounted at a free end of a guiding member arm. The guiding member arm is pivoted in a guiding direction and in a parking direction. This causes the guiding member to be pivoted into a guiding position and into a parking position. An actuator pivots a guiding member arm pivoting element in a pivoting direction that is the guiding direction or the parking direction. This pivoting step causes the guiding member arm to be pivoted in the pivoting direction.
A bale forming apparatus includes a bale supporting tailgate and a pivoting mechanism for pivoting the bale supporting tailgate. A bale pushing device pushes the bale formed in a bale forming chamber away from an outlet onto the bale supporting tailgate in a bale receiving position. The bale supporting tailgate is pivoted from the bale receiving position into a bale supporting position when carrying the bale to increase the distance between the bale on the bale supporting tailgate and the outlet, and ejects the bale when being pivoted from the bale supporting position into a bale ejecting position. The bale forming apparatus provides the bale forming chamber surrounded by bale forming means adjacent to the outlet even when the bale supporting tailgate carries the bale and is in the bale supporting position or in the bale ejecting position.
A bale forming apparatus and a bale forming method form cylindrical bales. An intake device conveys material into a bale forming chamber surrounded by a bale forming means. A bale in this bale forming chamber is formed by means of the bale forming means. A pivotal guiding member (28.1, 28.2) is mounted at a free end of a guiding member arm (26.1, 26.2). The guiding member arm (26.1, 26.2) is pivoted in a guiding direction and in a parking direction. This causes the guiding member (28.1, 28.2) to be pivoted into a guiding position and into a parking position. An actuating means (42) pivots a guiding member arm pivoting element (41) in a pivoting direction that is the guiding direction or the parking direction. This pivoting step causes the guiding member arm (26.1, 26.2) to be pivoted in the pivoting direction.
The invention refers to a bale forming apparatus and a bale forming method for forming cylindrical bales of material. An intake device conveys material through an outlet into a bale forming chamber which is surrounded by a bale forming means and which is situated adjacent to the outlet. A front housing part and a rear housing part (17) are adapted for being connected with each other to form a bale forming housing. The rear housing part (17) together with a bale on a bale carrying member (18) can be pivoted with respect to the front housing part around an angle of at least 90 degrees. The rear housing part (17) can be pivoted from a bale receiving position into a bale ejecting position where the bale is ejected.
The invention refers to a bale forming apparatus and a bale forming method. A bale (B) is formed in a bale forming chamber. A bale pushing device (115) pushes the bale (B) away from an outlet (7) onto a bale supporting construction (11). A guiding element (119) is pivoted into a guiding position. The guiding element (119) in the guiding position contributes to guide a bale forming means (10) such that a bale forming device a chamber is also provided when the bale (B) is on the bale supporting construction (11). A new bale (B') is formed in the provided bale forming chamber. The bale pushing device (115) is pivoted around the pivoting axis (112) in a pushing direction and backwards and performs a reciprocating movement. Pivoting the bale pushing device (115) in the pushing direction causes the guiding element (119) to be pushed and pivoted into the guiding position.
A bale forming apparatus (1) and a bale forming method form cylindrical bales (B, B'). A bale forming chamber is surrounded by a bale forming means (10). A bale (B) is formed in this bale forming chamber. This bale (B) is pushed onto a bale supporting construction (11). This bale supporting construction (11) buffers the bale (B). A further bale (B') is created in the bale forming chamber. One pushing member(24.2) pushes the old bale (B) from the bale forming chamber onto the bale supporting construction (11). This pushing member (24.2) is connected with a holding device (23) and performs a movement on a circular path for pushing the bale (B). The drive rotates the holding device (23) around a rotating axis (25). A pivotal guiding member (28.2) is pivoted into a guiding position and contributes to provide a bale forming chamber for the new bale (B').
An agricultural piston bale press includes a pressing piston, a main driving mechanism, an intake device to take in crop material, and a stuffing device. The stuffing device includes a feed passage and a stuffing mechanism that has a tine arm supporting tines that can be moved along a stuffing trajectory, and a drive mechanism for driving the tine arm. The drive mechanism is configured to move the tine arm in a cyclic movement along a constant trajectory, and that the tines are movably supported on the tine arm so that the tines can be arranged in different positions with respect to the tine arm to follow different trajectories.
A mobile rake device for displacing mown crop has a frame with a rake tool assembly that has a path-shaped working range and includes two rake tools with rake tines. In an operative position, the rake tools are arranged behind each other in a staggered manner in the direction of travel to provide two path parallel sections to achieve the path-shaped working range. The rake tools displace the mown crop located in the path section to one side in a flow of crop in order to form ultimately one final windrow. The rake tool assembly has an auxiliary displacing tool, that is arranged to throw the crop, which has been collected by the first rake tool in a flow of crop or in the form of a windrow, a pre-windrow, across the front of the next rake tool towards the final windrow to be formed.
A wrapper for wrapping round bales of crop material includes a frame, a wrapping table pivotable between a wrapping position and a bale release position, a wrapping device, and an unloading device. The unloading device has an unloading arm movable between a receiving position and a release position, and a ground support movable between a lifted position and a support position, wherein the wrapper comprises a first actuator to move the unloading arm from the receiving position to the release position. The wrapper includes a second actuator arranged to move the ground support from the lifted position to the support position and to move the wrapping table at least partially from the wrapping position to the bale release position.
B65B 11/00 - Wrapping, e.g. partially or wholly enclosing, articles or quantities of material, in strips, sheets or blanks, of flexible material
B65B 11/04 - Wrapping articles or quantities of material, without changing their position during the wrapping operation, e.g. in moulds with hinged folders the articles being rotated
A01F 15/07 - Rotobalers, i.e. machines for forming cylindrical bales by winding and pressing
A01F 15/08 - Baling presses for straw, hay or the like Details
A wrapper for wrapping bales of crop material includes a frame, a wrapping table, a wrapping device, and a loading device. The loading device includes a pivotable loading structure, and at least one actuator to move the loading structure between a pick-up position and a release position, wherein the loading structure comprises two loading arms between which the bale can be arranged. A pivotable grip arm is mounted on each loading arm. The pivotable grip arms are pivotable with respect to the loading arms between a closed position and an open position, and the at least one actuator is arranged to also move at least one of the grip arms between the open and the closed position.
B65B 11/04 - Wrapping articles or quantities of material, without changing their position during the wrapping operation, e.g. in moulds with hinged folders the articles being rotated
A wrapper for wrapping bales, in particular round bales of crop material, includes a frame, a wrapping table to support the bale during wrapping, a wrapping device to wrap wrapping material about the bale. In particular, the wrapper has at least two lateral guiding elements arranged to enclose a bale supported on the wrapping table to limit lateral movement of the bale. At least one of the lateral guiding elements is movable between an open position and a closed position, so that the distance between top ends of the lateral guiding elements is larger in the open position than in the closed position.
B65B 11/02 - Wrapping articles or quantities of material, without changing their position during the wrapping operation, e.g. in moulds with hinged folders
41.
Implement and assembly for carrying out operations on an agricultural land
An implement for soil preparation is moved in a direction of travel by a tractor with a three-point linkage. The implement includes an attaching mechanism, a coupling member with three coupling points, a first tool beam which is attached to the coupling member, at least one tool which is supported by the first tool beam, and three coupling elements which are each movably attached to the coupling member in the region of the respective coupling points to connect the coupling member to the attaching means. The first coupling element defines a path of movement for a guided movement of the first coupling point with respect to the attaching means. The second and the third coupling element each define a path of movement for a guided movement of their respective coupling point with respect to the attaching mechanism.
12 - Land, air and water vehicles; parts of land vehicles
Goods & Services
Agricultural machines, namely machines to pick up from the
ground and to transport crop, such as tray trucks and silage
trailers. Tray trucks and silage trailers, being vehicles for
agricultural use.
09 - Scientific and electric apparatus and instruments
Goods & Services
Machines, not included in other classes; agricultural machines, milking machines and other milk extracting systems and robots as well as parts and accessories for the aforementioned machines, systems and robots not included in other classes; rinsing, washing and cleaning equipment and instruments for use in the field of cattle housing cleaning, cattle care or milk production. Measuring, regulating, control and monitoring equipment and instruments for use in connection with machines, agricultural machines, milking machines and other milk extracting systems and robots as well as parts and accessories for the aforementioned machines, systems and robots, rinsing, washing and cleaning equipment and instruments for use in the field of cattle housing cleaning, cattle care or milk production; parts of the aforesaid goods; electronic equipment and software for processing and/or saving and/or presenting of data for applications relating to machines, agricultural machines, milking machines and other milk extracting systems and robots as well as parts and accessories for the aforementioned machines, systems and robots, rinsing, washing and cleaning equipment and instruments for use in the field of cattle housing cleaning, cattle care or milk production.
09 - Scientific and electric apparatus and instruments
Goods & Services
Agricultural machines, milking machines and other milk-extracting systems and robots as well as parts and accessories for the aforementioned machines, systems and robots not included in other classes; rinsing, washing and cleaning equipment and instruments for use in the field of milk extraction. Measuring, regulating, control and monitoring equipment and instruments for use in connection with machines, agricultural machines, milking machines and other milk-extracting systems and robots as well as parts and accessories for the aforementioned machines, systems and robots, rinsing, washing and cleaning equipment and instruments for use in the field of milk extraction; parts of the aforesaid goods; electronic equipment and software for processing and/or saving and/or presenting of data for applications relating to machines, agricultural machines, milking machines and other milk-extracting systems and robots as well as parts and accessories for the aforementioned machines, systems and robots, rinsing, washing and cleaning equipment and instruments for use in the field of milk extraction.
09 - Scientific and electric apparatus and instruments
Goods & Services
Machines not included in other classes; agricultural
machines, milking machines and other milk-extracting systems
and robots as well as parts and accessories for the
aforementioned machines, systems and robots not included in
other classes; rinsing, washing and cleaning equipment and
instruments for use in the field of milk extraction. Measuring, regulating, control and monitoring equipment and
instruments for use in connection with the products
mentioned in class 7, parts of the aforesaid goods;
electronic equipment and software for processing and/or
saving and/or presenting of data for applications relating
to the products mentioned in class 7.
