摘要:
A mounting apparatus applies ultrasonic vibration exactly to a junction between a SMD and a SMD receiving device and maintains the junction at the suitable temperature, in simple construction in ultrasonic bonding of the SMD and the SMD receiving device held by holding unit. This includes SMD holding unit, SMD receiving device holding unit, moving unit moving at least one of the SMD holding unit and SMD receiving device holding units to contact each other, vibration generating unit applying ultrasonic vibration to the a contact portion between the SMD and the SMD receiving device, pressing unit applying an bias force between the SMD and SMD receiving device, heating unit arranged movably so as to surround in a noncontact manner a portion of the SMD holding unit near the SMD and heating the SMD holding unit, and interlocking unit interlocking the heating unit with the SMD holding unit.
摘要:
In an ultrasonic mounting apparatus, a pressing shaft coupled with a voice coil motor to apply a load on a part to be mounted is placed independently from components including a bonding tool, ultrasonic horn, transducer, and horn support member. The components can move coaxially with the pressing shaft which is an application axis of a driving force. Abutting position of the bonding tool and pressing shaft is brought into coincidence with a node of a standing wave generated in the bonding tool.
摘要:
In an ultrasonic mounting apparatus, a pressing shaft coupled with a voice coil motor to apply a load on a part to be mounted is placed independently from components including a bonding tool, ultrasonic horn, transducer, and horn support member. The components can move coaxially with the pressing shaft which is an application axis of a driving force. Abutting position of the bonding tool and pressing shaft is brought into coincidence with a node of a standing wave generated in the bonding tool.
摘要:
The invention provides a mounting method capable of coping with high density mounting, narrower pitch mounting, cavity mounting and the like. In this method, displacement amounts of a chip that is picked up from a wafer by a pick-up nozzle to be held by the pick-up nozzle, with respect to a reference attitude, are obtained, and when the chip is delivered to a mounting nozzle for actually mounting the chip onto a substrate, the displacement amounts are corrected while taking the displacement amounts into consideration, so that the mounting nozzle always holds the chip in a fixed attitude.
摘要:
The invention provides a mounting method capable of coping with high density mounting, narrower pitch mounting, cavity mounting and the like. In this method, displacement amounts of a chip that is picked up from a wafer by a pick-up nozzle to be held by the pick-up nozzle, with respect to a reference attitude, are obtained, and when the chip is delivered to a mounting nozzle for actually mounting the chip onto a substrate, the displacement amounts are corrected while taking the displacement amounts into consideration, so that the mounting nozzle always holds the chip in a fixed attitude.
摘要:
A mounting apparatus capable of coping with high density mounting, narrower pitch mounting, cavity mounting and the like. In the apparatus, displacement amounts of a chip that is picked up from a wafer by a pick-up nozzle to be held by the pick-up nozzle, with respect to a reference attitude, are obtained, and when the chip is delivered to a mounting nozzle for actually mounting the chip onto a substrate, the displacement amounts are corrected while taking the displacement amounts into consideration, so that the mounting nozzle always holds the chip in a fixed attitude.
摘要:
A mounting apparatus capable of coping with high density mounting, narrower pitch mounting, cavity mounting and the like. In the apparatus, displacement amounts of a chip that is picked up from a wafer by a pick-up nozzle to be held by the pick-up nozzle, with respect to a reference attitude, are obtained, and when the chip is delivered to a mounting nozzle for actually mounting the chip onto a substrate, the displacement amounts are corrected while taking the displacement amounts into consideration, so that the mounting nozzle always holds the chip in a fixed attitude.
摘要:
A horn that can suppress oscillation components other than the component in the horizontal direction, a horn unit, and a bonding apparatus using same are provided. The horn has a cross-section variable section in which a cross section perpendicular to the lengthwise direction (X direction) thereof has a first region extending in the Z direction and a pair of second regions sandwiching the first region from Y direction. In the position P3 corresponding to an anti-node of a standing wave of oscillations excited in the horn, a sectional area S1 of the first region assumes a maximum and a sectional area S2 of the second region assumes a minimum. With a transition from the position P3 to the other positions corresponding to nodes, the sectional area S1 decreases and the sectional area S2 increases. As a result, oscillation components other than those in the X direction are suppressed.
摘要:
A horn that can suppress oscillation components other than the component in the horizontal direction, a horn unit, and a bonding apparatus using same are provided. In the horn 50 in accordance with the present invention, oscillations are applied by an oscillator 42. The horn 50 has a cross-section variable section 54 in which a cross section perpendicular to the lengthwise direction (X direction) of the horn 50 has a first region A1 extending in the Z direction and a pair of second regions A2 sandwiching the first region A1 from the direction (Y direction) perpendicular to the Z direction. In the position P3 corresponding to an anti-node of a standing wave of oscillations excited in the horn 50, a sectional area S1 of the first region A1 assumes a maximum and a sectional area S2 of the second region A2 assumes a minimum. With a transition from the position P3 corresponding to an anti-node of the standing wave to positions P2, P4 corresponding to nodes, the sectional area S1 of the first region Al decreases and the sectional area S2 of the second region A2 increases. As a result, oscillation components other than those in the X direction are suppressed.
摘要:
A cleaning apparatus according to the invention is used for an electronic component mounting machine, includes a abrading unit for abrading the suction surface of the mounting nozzle; and a drive unit for moving the abrading unit in a predetermined direction, the abrading unit being formed by a ceramics structure, and a grain size of a contact surface of the abrading unit ranges from P1000 to P5000, the contact surface of the abrading unit coming into contact with the suction surface of the mounting nozzle.