A strapping device for strapping packages, having a packing table via which the package is moved along a movement path through the device, having a strapping frame which is oriented transversely with respect to the movement path and through which the package passes during its movement through the device, having a strap channel which is open in the direction of the frame interior, is formed by the strapping frame and has at least two vertical channel legs which are arranged on both sides of the movement path of the package, and having a multiplicity of strap channel flaps which are secured on the strapping device channel so as to be moveable by way of an articulated leg and are provided with a covering leg which overlies approximately half of the channel opening in the direction of a strap channel longitudinal axis.

A strapping device for strapping packages, having a packing table via which the package is moved along a movement path through the device, having a strapping frame which is oriented transversely with respect to the movement path and through which the package passes during its movement through the device, having a strap channel which is open in the direction of the frame interior, is formed by the strapping frame and has at least two vertical channel legs which are arranged on both sides of the movement path of the package, and having a multiplicity of strap channel flaps which are secured on the strapping device channel so as to be moveable by way of an articulated leg and are provided with a covering leg which overlies approximately half of the channel opening in the direction of a strap channel longitudinal axis.

A binding machine that binds objects with a tape, the binding machine includes a staple magazine unit configured to accommodate a plurality of staples, a main handle, a clincher arm configured to approach a leading staple of the plurality of staples and a clincher configured to bend the leading staple. The clincher has, on a surface thereof, a first groove that extends in an acute angle direction with respect to an axial direction of a rotation shaft of the clincher arm and has a first groove length and a first groove width, and a second groove that extends in an acute angle direction with respect to the axial direction of the rotation shaft of the clincher arm and has a second groove length and a second groove width. The second groove is disposed offset with respect to the first groove in a width direction of the first groove.

A binding machine that binds objects with a tape, the binding machine includes a staple magazine unit configured to accommodate a plurality of staples, a main handle, a clincher arm configured to approach a leading staple of the plurality of staples and a clincher configured to bend the leading staple. The clincher has, on a surface thereof, a first groove that extends in an acute angle direction with respect to an axial direction of a rotation shaft of the clincher arm and has a first groove length and a first groove width, and a second groove that extends in an acute angle direction with respect to the axial direction of the rotation shaft of the clincher arm and has a second groove length and a second groove width. The second groove is disposed offset with respect to the first groove in a width direction of the first groove.

A multiple strapping device that provides an uninterrupted ejection cycle for a bale while at the same time strategically placing the straps, or wire ties, onto the bale, through use of a series of corkscrews which hold the straps or wire ties and advance the strap, or wire ties, as the corkscrew is rotated therein releasing the strap, or wire ties, onto the bale.

A multiple strapping device that provides an uninterrupted ejection cycle for a bale while at the same time strategically placing the straps, or wire ties, onto the bale, through use of a series of corkscrews which hold the straps or wire ties and advance the strap, or wire ties, as the corkscrew is rotated therein releasing the strap, or wire ties, onto the bale.

A binding machine including a feeding and tensioning device for feeding a binding element in the form of a wire or strap around a space, and a joining device for forming a joint between a first binding element section at the leading end of the binding element and a second binding element section at the trailing end of a piece of the binding element arranged in a loop in or around the space to thereby form a closed loop of this piece of the binding element. The feeding and tensioning device is configured to exert a tensile force on the binding element in order to subject the joint to a tensile test. During this test, a gripping arrangement is configured to keep the first binding element section secured in fixed position by engagement with a part of the first binding element section located between the joint and the leading end of the binding element.

A binding machine including a feeding and tensioning device for feeding a binding element in the form of a wire or strap around a space, and a joining device for forming a joint between a first binding element section at the leading end of the binding element and a second binding element section at the trailing end of a piece of the binding element arranged in a loop in or around the space to thereby form a closed loop of this piece of the binding element. The feeding and tensioning device is configured to exert a tensile force on the binding element in order to subject the joint to a tensile test. During this test, a gripping arrangement is configured to keep the first binding element section secured in fixed position by engagement with a part of the first binding element section located between the joint and the leading end of the binding element.

A strapping machine and head are provided including a mounting base, a sealing assembly including a cutter for cutting the strapping tape and a sealing element for welding a strapping tape. The sealing assembly, which is slidably disposed on the mounting base, includes a first, second, and third clamping mechanism, for clamping the strapping tape. A belt feeding assembly including a first motor, a driving wheel and a guide block fixedly disposed on the mounting base. The driving wheel is rotatably disposed on the mounting base and an arc-shaped belt feeding channel is formed between the driving wheel and the guide block. The first motor drives the driving wheel to rotate, and a driving assembly drives the sealing assembly close to or away from the driving wheel. A balanced tension is applied to a strapping tape through a strapping machine head to improve the strapping quality of the strapping machine.

A strapping machine and head are provided including a mounting base, a sealing assembly including a cutter for cutting the strapping tape and a sealing element for welding a strapping tape. The sealing assembly, which is slidably disposed on the mounting base, includes a first, second, and third clamping mechanism, for clamping the strapping tape. A belt feeding assembly including a first motor, a driving wheel and a guide block fixedly disposed on the mounting base. The driving wheel is rotatably disposed on the mounting base and an arc-shaped belt feeding channel is formed between the driving wheel and the guide block. The first motor drives the driving wheel to rotate, and a driving assembly drives the sealing assembly close to or away from the driving wheel. A balanced tension is applied to a strapping tape through a strapping machine head to improve the strapping quality of the strapping machine.