A lead wire straightening device including a control device that disposes a lead wire of a lead component that is held by a holding section between a first claw section and a second claw section. The control device causes an opening/closing driving section of a straightening unit to clamp and straighten the lead wire by the first and second claw sections. After the lead wire is clamped, the control device causes a driving section to rotate at least one of the holding section and the straightening unit to thereby change positions of the first and second claw sections relative to the lead wire. Then, after changing the positions of the first and second claw sections relative to the lead wire, the control device causes the first and second claw sections to clamp the lead wire again to straighten the lead wire.

A component supply device includes a transport path that guides a component connected body from a component insertion port on an upstream side in a component feeding direction to a component supply position on a downstream side, the component connected body including a plurality of axial components arranged and connected at a predetermined pitch, the plurality of axial components each having a lead, and a feed mechanism that pitch-feeds the component connected body along the transport path to the downstream side. The feed mechanism includes a feed member which has a plurality of feed hooks disposed at the predetermined pitch along the component feeding direction, a rotating shaft which is connected to one end side of the feed member, and a moving mechanism which is connected to the feed member through the rotating shaft and reciprocates the rotating shaft along the component feeding direction. A length of one feed hook among the plurality of feed hooks is longer than a length of an other feed hook among the plurality of feed hooks, the other feed hook being adjacent to the one feed hook on the rotating shaft side.

In a component insertion machine for inserting a component with a lead into a board, when the lead is cut by lead cutting device having a fixed blade 60 and a movable blade prior to insertion, the component is moved to a position where the lead approaches or contacts the fixed blade, at which position the movable blade is operated to cut the lead.

In a component insertion machine for inserting a component P with a lead into a board, when the lead is cut by lead cutting device 20 having fixed blade 60 and movable blade 62 prior to insertion, the component is moved (X) to a position where the lead approaches or contacts the fixed blade, at which position the movable blade is operated to cut the lead.

A lead wire straightening device including a control device that disposes a lead wire of a lead component that is held by a holding section between a first claw section and a second claw section. The control device causes an opening/closing driving section of a straightening unit to clamp and straighten the lead wire by the first and second claw sections. After the lead wire is clamped, the control device causes a driving section to rotate at least one of the holding section and the straightening unit to thereby change positions of the first and second claw sections relative to the lead wire. Then, after changing the positions of the first and second claw sections relative to the lead wire, the control device causes the first and second claw sections to clamp the led wire again to straighten the lead wire.

A component supply device includes a transport path that guides a component connected body from a component insertion port on an upstream side in a component feeding direction to a component supply position on a downstream side, the component connected body including a plurality of axial components arranged and connected at a predetermined pitch, the plurality of axial components each having a lead, and a feed mechanism that pitch-feeds the component connected body along the transport path to the downstream side. The feed mechanism includes a feed member which has a plurality of feed hooks disposed at the predetermined pitch along the component feeding direction, a rotating shaft which is connected to one end side of the feed member, and a moving mechanism which is connected to the feed member through the rotating shaft and reciprocates the rotating shaft along the component feeding direction. A length of one feed hook among the plurality of feed hooks is longer than a length of an other feed hook among the plurality of feed hooks, the other feed hook being adjacent to the one feed hook on the rotating shaft side.

A correction mechanism includes a mounting board, a first correction assembly, and a second correction assembly. The first correction assembly includes a plurality of first limiting members and a plurality of first correction members alternating arranged with the plurality of first limiting members. The first limiting members are securely fixedly mounted on the mounting board. The first correction members are movably mounted on the mounting board and capable of moving toward the plurality of first limiting members along a first direction. The second correction assembly has a structure similar to the first correction assembly. The plurality of second limiting members and the plurality of second correction members are substantially perpendicular to and above the plurality of first limiting members and the plurality of first correction members