A display device, and a method and apparatus for manufacturing the display device, are provided. The display device includes a cover window including a curved portion, and a display panel smaller in at least one of length or width than the cover window and laminated on a flat portion of the cover window.

A component supply method of supplying components scattered on a stage, includes a storage step of storing position information indicating a position of a component, posture information indicating a posture of the component, and number information indicating the number of components based on imaging data of the components scattered on the stage, and a holding step of holding the components scattered on the stage with a holding tool based on the position information and the posture information stored in the storage step.

A component mounter includes a camera configured to image the supply region, an image processing section configured to execute image processing on image data acquired by imaging of the camera to recognize an accommodation state of the component for each of the multiple cavities and acquire accommodation information in which the accommodation state of the component is associated with a unique address for each of the multiple cavities, and an operation control section configured to execute a collection operation of the component accommodated in the cavity based on the accommodation information.

An angle sensor of a tape feeder includes a magnetic body that rotates in conjunction with the rotation of a sprocket, a magnetic sensor that outputs a detection signal corresponding to the angle of the magnetic body with respect to the feeder main body, and an angle calculating section that performs offset processing for adjusting an origin of the detection signal using a preset offset value, gain processing that adjusts the magnitude of the detection signal using a preset gain value, and that calculates the angle of the magnetic body based on the adjusted detection signal. The control device performs correction processing for correcting at least one of the offset value or the gain value based on the detected signals outputted from the magnetic sensor.

A component supply device includes a tape feeder configured to feed a tape including a storage configured to store a component and a cover tape configured to cover an upper side of the storage, and a press including a columnar protrusion configured to press an upper surface of a portion of the cover tape that covers the storage.

A production management device, which manages a production schedule of a component mounting line, executes a remote operation mode for remotely operating a component mounter to perform a test operation according to an input operation of an operator, in addition to an automatic production mode in which an automated replacement operation of an automated replacement robot is managed according to the production schedule to produce a component mounting board. The production management device determines, when in the remote operation mode, whether a feeder configured to supply components necessary for the test operation is set in the component mounter, and when the feeder that supplies the necessary components is not set in the component mounter, moves the automated replacement robot to the component mounter and sets the feeder configured to supply the necessary components in the component mounter to cause the component mounter to perform the test operation.

A component feeding system including: a stage configured to support components in a scattered state; a holding tool configured to pick up and hold the component scattered on the stage; an imaging device configured to image the components scattered on the stage; and a control device configured to acquire, based on image data of the imaging device, a pickup possible component quantity that is a quantity of components that can be picked up by the holding tool from among the components scattered on the stage.

For a component receiving member provided with a component reception recess shaped according to a component that is a storage target, and side wall section that a component held by suction nozzle contacts when moved in the left-right direction, when the component is released in a state contacting the side wall section, the component is stored in the component reception recess by leads of the component falling along a tapered surface and the component rotating 90 degrees due to its own weight. Therefore, even in a case in which the component is held by suction nozzle with an upper surface facing up, the component is stored in the component reception recess with the upper surface facing up by the component rotating 90 degrees at the component receiving member.

A work machine including: a tape feeder with taped lead components having multiple leads to supply the lead components in a state of being detached from the taped components extended to a supply position; a mounting head to mount the lead components supplied by the tape feeder onto a board; an imaging device; and a control device having an imaging section to image an identification object, the identification object being on the taped components and capable of identifying the polarity of each of the multiple leads, and a determination section to determine whether an actual polarity disposition, which is the polarity disposition of each of the multiple leads, and a set polarity disposition, which is the polarity disposition of each of the multiple leads set in advance, match each other based on image data obtained by imaging with the imaging section.

A component supply device, configured to supply an electrical component in a state of being placed in a placement section, comprising: multiple placement sections, in which an electrical component positioned by a positioning section is placed in each placement section, and a detection device, configured to detect displacement in the up-down direction of the electrical components placed in the multiple placement sections.