A loose component supply device including component support member 150 configured to support components in a scattered state; and component supply apparatus 88 configured to store components and discharge components towards the component support member from discharge opening 98, wherein, in the component supply apparatus, conveyor belt 112 is arranged between storage section 100 that stores components and a discharge opening so as to extend diagonally upwards from the storage section on the side on which the discharge section is provided. Components housed in the housing section are discharged from the discharge opening towards the component support member by being conveyed by the conveyor belt. The component supply apparatus is removably mounted on the mounting section. Thus, because components are not discharged from the discharge opening unless the conveyor is operated, components do not fall from the discharge opening when the component supply apparatus is mounted on or removed from the mounting section.

A component supply device including a stage on which electronic components are scattered; a contacting section at a height so as to contact the electronic components on the stage; a slide device to relatively slide the stage and the contacting section; a dropping opening to allow the electronic components scattered on the stage caught by the contacting section to drop in accordance with the relative movement of the stage and the contacting section by the slide device; and a wall at a side opposite to a side of the dropping opening at which the electronic components scattered on the stage drop. The contacting section is provided to extend in a direction perpendicular to a sliding direction by the slide device, and at least a portion of the contacting section is inclined with respect to a straight direction along the sliding direction and an upper surface of the stage.

A component mounting machine including a head provided with multiple nozzles to pick up the components; a raising and lowering device to individually raise and lower the multiple nozzles; a moving device to move the head relative to the board in a plane perpendicular to a raising and lowering direction of the nozzles; and a control device to perform, as a pickup operation for causing the nozzle to pick up a component, a first pickup operation of controlling the moving device and the raising and lowering device so as to lower a single one of the nozzles above the component supply section to pick up one of the components using that nozzle, and a second pickup operation of controlling the moving device and the raising and lowering device so as to simultaneously lower multiple of the nozzles above the component supply section to pick up multiple of the components simultaneously using the multiple nozzles.

A component mounting device head unit includes a head main body, a nozzle being provided on the head main body, a drive source, a cover, and a heat transfer member. The nozzle is configured to pick up a component. The drive source is configured to transfer moving power to at least one of the head main body and the nozzle. The cover covers the drive source. The heat transfer member connects the cover to the drive source or a frame of the drive source, and the heat transfer member is configured to allow heat generated by the drive source to escape to the cover.

A work machine including a holding head provided with multiple component holding tools; a moving device configured to move the holding head in a horizontal plane direction and a vertical direction; an imaging device provided with side lighting configured to emit light from a side direction onto leads of the components held by the component holding tools; and a control device, the control device is provided with a first lowering instruction section configured to lower the holding head such that the leads of at least two components held by at least two of the multiple component holding tools enter a lighting range of the side lighting, a first imaging instruction section configured to image the leads of the at least two components based on reflected light of the side lighting that is reflected by the leads of the components.

This disclosure provides a pick-and-place device including base, carrying mechanism, driving mechanism and clamping mechanism. Carrying mechanism includes first side part, second side part, two conveyor assemblies and two first driving devices. Conveyor assemblies are respectively disposed on first side part and second side part and configured to carry circuit board. First driving devices are respectively connected to conveyor assemblies so as to respectively turn conveyor assemblies. Driving mechanism is disposed on base. Clamping mechanism includes base plate, clamping assembly and second driving device. Base plate is movably disposed on base via driving mechanism. Clamping assembly includes first claw and second claw are disposed on base plate and configured to pick and place circuit board. Second driving device is disposed on base plate. Second driving device is connected to clamping assembly so as to move first claw and second claw toward or away from each other.

A component delivery device includes an actuator that displaces an outer sleeve and an inner rod positioned within a cavity of the outer sleeve together from a retracted configuration to an extended configuration to move an ejectable component in relation to a feed head. The actuator further displaces the outer sleeve and not the inner rod to an ejection configuration to displace the ejectable component toward a workpiece. Displacing the outer sleeve and not the inner rod causes the outer sleeve to translate over the inner rod and compresses a biasing member that is disposed within the cavity and in engagement with the inner rod.

A work machine including a holding head provided with multiple component holding tools; a moving device configured to move the holding head in a horizontal plane direction and a vertical direction; an imaging device provided with side lighting configured to emit light from a side direction onto leads of the components held by the component holding tools; and a control device, the control device is provided with a first lowering instruction section configured to lower the holding head such that the leads of at least two components held by at least two of the multiple component holding tools enter a lighting range of the side lighting, a first imaging instruction section configured to image the leads of the at least two components based on reflected light of the side lighting that is reflected by the leads of the components.

A component delivery device includes an actuator that displaces an outer sleeve and an inner rod positioned within a cavity of the outer sleeve together from a retracted configuration to an extended configuration to move an ejectable component in relation to a feed head. The actuator further displaces the outer sleeve and not the inner rod to an ejection configuration to displace the ejectable component toward a workpiece. Displacing the outer sleeve and not the inner rod causes the outer sleeve to translate over the inner rod and compresses a biasing member that is disposed within the cavity and in engagement with the inner rod.

A component mounter of the present disclosure including a mounting head configured to pick up components and mount the components onto a substrate; a head moving device configured to move the mounting head in parallel to a horizontal plane; and a conveyance device configured to convey the substrate in a conveyance direction parallel to the horizontal plane. The mounting head includes multiple nozzles configured to pick up and hold the components by a negative pressure, multiple switching valves provided corresponding to each of the multiple nozzles and configured to switch whether the negative pressure is supplied to the corresponding nozzle, a nozzle moving device configured to change which nozzle is positioned at each of a first nozzle position and a second nozzle position for moving the multiple nozzles and performing at least one of picking up and mounting of the components, a first driving device, and a second driving device.