Component mounting machine includes head, a device for moving head, transfer unit, and a mounting controller. Circular plate is an example of a container in which paste is placed. The bottom face of circular plate and the upper surface of the side wall have a predetermined height relationship. Height sensor is disposed on the lower face of head. Height sensor measures the height of the upper surface of the side wall of circular plate, which is a measurement point. The mounting controller recognizes the height of the bottom face of circular plate or the height of the surface of coating film disposed on circular plate from the height of the top surface of the side wall of circular plate measured by height sensor.

The substrate processing management system for a substrate processing line including a defect tallying section to calculate a defect rate representing a rate of occurrence of substrates or electronic components determined to be defective with the substrate inspection machine, or obtain a number of defective products having substrates or electronic components determined to be defective; an attribute change recognition section to recognize when an attribute, among the attributes of the electronic component, having a possibility of affecting the inspection, has changed in the component mounting machine; a fault point estimation section to estimate, when the defect rate or the number of defective products exceeds a predetermined value, which of the component mounting machine or the substrate inspection machine is a fault point depending on whether an attribute has changed; and a countermeasure calling section configured to call for a defect countermeasure to the estimated fault point.

A welding torch system includes a diffuser assembly that includes a locking mechanism to receive a contact tip. Additionally, the welding torch system includes the contact tip, which includes locking elements configured to interact with the locking mechanism of the diffuser assembly to secure the contact tip within the diffuser assembly. Further, the contact tip is rotated within the diffuser assembly to securely align the locking elements with the locking mechanism.

A welding torch system includes a diffuser assembly that includes a locking mechanism to receive a contact tip. Additionally, the welding torch system includes the contact tip, which includes locking elements configured to interact with the locking mechanism of the diffuser assembly to secure the contact tip within the diffuser assembly. Further, the contact tip is rotated within the diffuser assembly to securely align the locking elements with the locking mechanism.

Techniques are disclosed for remotely switching screw color or screw type feeding into a door assembly machine with an auto-hinge applicator. An apparatus having a turntable is supported on bearings and a framework. Each side of the turntable includes a screw hopper accessible via a rotary index. The screw hoppers receive a user input to make a screw selection. Upon receiving a selection, one of the hoppers indexes into position, allowing the correct screw to feed to the hinge applicator. Screw feed-hoses from screwdrivers on the hinge applicator are arranged to connect to a manifold below the screw hoppers. Screws drop from the hoppers into a manifold, at which point the screws are blown with compressed air through the feed-hoses to the screwdrivers on the hinge applicator. Screws can be reloaded into the screw hoppers when rotated in alignment with the hinge side of the door assembly machine.

A component mounting system that includes a component mounter in which multiple component supply units are detachably arranged in a supply area and mounts components on a board based on a job. The system performs a preparatory arrangement control for dividing the component supply units required for the job into multiple, and controlling the unit exchange device to make an arrangement of the component supply units in each group match an arrangement order in the supply area, and a supply arrangement control for controlling the unit exchange device to automatically exchange the component supply units, and to arrange the component supply units required for the job after switching in the supply area.

A pump apparatus includes a pump configured for moving air, a housing supporting the pump, and an air output hose in communication with the pump. The housing further includes a rest for retaining a portion of the air output hose. The rest forms a u-shape having two side walls and a valley therebetween.

A pump apparatus includes a pump configured for moving air, a housing supporting the pump, and an air output hose in communication with the pump. The housing further includes a rest for retaining a portion of the air output hose. The rest forms a u-shape having two side walls and a valley therebetween.

An assembler system for manufacturing vapor-generating articles may include a rotatable assembly drum including an outer face and a flute in the outer face. The flute is structured and arranged to hold a first section and a second section of the vapor-generating article. The system also includes a first mechanism that translates the first section relative to the second section while the first section and the second section are in the flute. The system additionally includes a second mechanism that rotates the first section relative to the second section while the first section and the second section are in the flute. The translating and the rotating connect the first section to the second section to form the vapor-generating article.

Self-regulating thermal insulation includes one or more thermal actuators that expand and contract in response to changes in temperature adjacent the thermal insulation, thereby automatically changing the thermal resistance of the thermal insulation. In this manner, a self-regulating thermal insulation may be configured to locally adjust in response to local changes in temperature of a part being insulated, for example, during curing or some other manufacturing process. Such self-regulating thermal insulation may be configured to respond to temperature changes without feedback control systems, power, or human intervention. Methods of making self-regulating thermal insulation include coupling a first plate with respect to a second plate using a support structure, thereby defining an insulation thickness therebetween, positioning an internal partition positioned between the first plate and the second plate, and positioning at least one thermal actuator positioned between the second plate and the internal partition.