A system is configured to automatically band a product with a portion of twist tie material and includes a tying machine which includes a twisting barrel, a tie payout assembly, a tie feeding assembly, a main drive belt, and a tying ring. The tie payout assembly includes a spool shaft configured for mounting a tie spool of the twist tie material. The tie feeding assembly is configured to receive the twist tie material from the tie payout assembly and includes a feedroller, a nip roller, a forward feedroll clutch, a reverse feedroll clutch, and a feedroll belt. The nip roller is configured to contact the feedroller with the twist tie material therebetween. The forward feedroll clutch is engageable with a forward feedroll pulley that surrounds a forward feedroll shaft. The reverse feedroll clutch is engageable with a reverse feedroll pulley that surrounds a reverse feedroll shaft.

A tool for sealing overlying courses of a strap that includes a gripping unit, a power supply unit detachably affixed to one end of the gripping unit, and a motor in the gripping unit. A cam is coupled to the motor and a notching unit is coupled to the cam by a plurality of linkages.

It provides a reinforcing bar binding machine capable of surely wrapping and binding a wire to a binding object. The reinforcing bar binding machine (1A) includes a magazine (2A) in which two wires (W) are housed so as to be drawable, a curl guide unit (5A) which winds the arranged wires (W) around the reinforcing bar (S), by the operation of feeding the parallel wires (W) at the curl guide unit (5A) to wind around the reinforcing bar (S), a wire feeding unit (3A) which to wrap around the reinforcing bar (S) with the wires (W) wound around the reinforcing bar (S), and a binding unit (7A) which twists a intersecting portion between one end side and the other end side of the wire (W) wound around the reinforcing bar (S).

It provides a reinforcing bar binding machine capable of surely wrapping and binding a wire to a binding object. The reinforcing bar binding machine (1A) includes a magazine (2A) in which two wires (W) are housed so as to be drawable, a curl guide unit (5A) which winds the arranged wires (W) around the reinforcing bar (S), by the operation of feeding the parallel wires (W) at the curl guide unit (5A) to wind around the reinforcing bar (S), a wire feeding unit (3A) which to wrap around the reinforcing bar (S) with the wires (W) wound around the reinforcing bar (S), and a binding unit (7A) which twists a intersecting portion between one end side and the other end side of the wire (W) wound around the reinforcing bar (S).

A binding machine includes a curl guide configured to guide a wire in a loop shape around a binding target and a twisting part configured to bind the binding target by twisting the wire guided in the loop shape around the binding target. The curl guide has a tapered protrusion at a tip end-side.

Strapping machine tilting device control mechanism including epicyclic transmission having a main axis and an internal crown, intermediate gears and an external crown, a pulling mechanism connected to intermediate gears to a tilting device tensioning roller to transmit movement of the gears around to the main axis to the tensioning roller, a tensioning wheel centered with the main axis constrained to the inner crown and connected to a strapping machine tensioning assembly to transmit tensioning wheel movement, a locking device connected to the external crown, control device to interact with a strapping machine actuation lever connected to the locking device to transmit actuation lever movement to the locking device defining rest and operating positions, the locking device includes: ring centered with the main axis and integral with the external crown, and torsional spring between the tilting device and control device, centered with the main axis to tighten around the ring.

A binding machine comprising a feeding and tensioning device (5) for feeding a binding element (3) in the form of a wire or strap around a space (4), and a joining device for forming a joint (8) 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 said space to thereby form a closed loop (11) 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 (30) is configured to keep the first binding element section secured in fixed position by engagement with a part (13) of the first binding element section located between the joint (8) and the leading end of the binding element.

An electrically powered strapping tool for tensioning and forming a sealless joint in overlapping sections of steel strap around a load includes a body having a foot, a tensioning assembly operably mounted to the body, the tensioning assembly having an electrically powered motor and a tensioning wheel operably connected to the tensioner motor. The tool includes a sealing assembly operably mounted to the body, the sealing assembly having an electrically powered motor and a sealer operably connected to the electrically powered motor. A control system controls operation of the tensioning assembly and the sealing assembly to operate the strapping tool in an automatic mode in which the tensioning assembly and the sealing assembly are sequentially actuated by a single action of the control system by an operator, and in a manual mode in which the tensioning assembly and the sealing assembly are sequentially actuated by multiple actions of the control system by the operator.

The present invention provides a tensioning mechanism, which is installed in a portable packaging machine, the tensioning mechanism is provided with a rotation direction control and rotation angle keeping mechanism, a non-return mechanism and a rocker arm, the rotation direction control and rotation angle keeping mechanism being connected to the non-return mechanism and the rocker arm, and the rocker arm being provided with a toothed structure matching the tensioning wheel. The present invention is compact in structure, and is capable of realizing the handleless operation of the portable packaging machine from a tensioned state to a non-tensioned state without operating a handle.

A strapping tool is disclosed herein. In one or more embodiments, the strapping tool includes a motive power source; and a tensioning assembly operatively coupled to the motive power source, the tensioning assembly including a cam member and at least one tensioning foot member, the cam member operatively coupling the at least one tensioning foot member to the motive power source, and the at least one tensioning foot member of the tensioning assembly configured to apply tension to a piece of strapping while being driven in an oscillatory manner by the motive power source. Also, in one or more embodiments, the strapping tool includes a jaw lifting assembly, the jaw lifting assembly configured to raise the at least one sealing jaw member out of a strapping pass line of the strapping tool so that the piece of strapping is capable of being inserted into the strapping tool.