Apparatus and methods of determining a position of a height sensor in a dispensing system. The dispensing system includes a dispenser, height sensor, camera, and a calibration device configured to receive a signal from the height sensor. The calibration device may include an optical sensor that generates an alignment signal in response to receiving light from the height sensor and/or a fiducial that causes the height sensor to generate the alignment signal in response to a detected height change. The alignment signal is used to automatically determine the position at which the height sensor is aligned with the calibration device. The position of the height sensor relative to a camera is determined by aligning the camera with the calibration device and recording its position. The recorded coordinates of the camera are compared to the coordinates of the height sensor when the height sensor is automatically aligned with the calibration device.

Work-saving improvements for food-process lines include (1) mounting alternate machines of a food process line on pivot hardware to speed up washing and maintenance operations, (2) mounting the machines on rolling riding gear in order to speed up the activities of building and re-building food process lines of a different series of machines, or (3) isolate the food process line in its own tunnel and hence its own climate-controlled atmosphere to reduce conflicts with running two food process lines side by side where one food process line is a source of air borne allergens.

Object: A liquid material application apparatus and a liquid material application method are provided with which a liquid material can be discharged in a predetermined discharge amount per unit time regardless of a relative moving speed in a series of application works. Solution: The liquid material application apparatus includes a discharge head, a robot moving the discharge head relative to a workpiece, a movement control unit controlling relative movement of the discharge head and the workpiece, and a discharge control unit controlling an operation of discharging a liquid material from a discharge head, wherein the discharge control unit executes, in a switchable manner in accordance with an application program, first mode discharge control of changing a discharge amount of the liquid material, which is discharged from the discharge head per unit time, depending on a relative moving speed between the discharge head and the workpiece, and second mode discharge control of operating the discharge head to discharge the liquid material in a predetermined discharge amount per unit time regardless of the relative moving speed. The liquid material application method is implemented using the liquid material application apparatus.

A flow rate adjustment method in a substrate processing apparatus including liquid processors performing liquid processing by supplying a mixed liquid of sulfuric acid and hydrogen peroxide to a substrate includes: discharging the mixed liquid under each discharge condition from first and second liquid processors; measuring a temperature of the mixed liquid for each discharge condition in the first and second liquid processors respectively; obtaining a correlation function between the temperature of the mixed liquid and a flow rate of sulfuric acid included in each discharge condition for the first and second liquid processors and thus generating a relational expression illustrating a sulfuric acid flow rate relationship when the temperature of the mixed liquid is identical between the first and second liquid processors; and adjusting the flow rate of sulfuric acid before being mixed into the mixed liquid in the second liquid processor by using the relational expression.

A system for depositing substances onto a deposition surface can comprise a first contact spotter comprising multiple spotting orifices fed by multiple fluid inlet conduits such that the first contact spotter is capable of depositing multiple spots of different substances onto the deposition surface simultaneously, and a second contact spotter comprising a second spotting orifice fed by a second fluid inlet conduit. The system can also include a positioning device adapted to alternatively position and seal the first contact spotter and second contact spotter on the deposition surface at an overlapping location.

An apparatus and associated methods for an automated pipe doping apparatus. The apparatus may include a pump fluidly coupled to a reservoir and a dope manifold, the pump positioned to pump pipe dope from the reservoir to the dope manifold; an ejector coupled to the dope manifold, the ejector positioned to supply a fixed volume of pipe dope from the dope manifold to a dope distribution line; and a pipe dope applicator, the pipe dope applicator fluidly coupled to the dope distribution line positioned to deposit pipe dope on a threaded connection. In some embodiments, the pipe dope applicator may be a fan-pattern nozzle. In other embodiments, the pipe dope applicator may be a mold-type applicator. In other embodiments, the pipe dope applicator may be a brush-type applicator.

A continuous galvanizing line having an annealing furnace of an all radiant tube heating type includes a moisture removal device, dew-point meters, outlets through which the atmospheric gas in the furnace is collected and inlets through which the atmospheric gas from which moisture has been removed with the moisture removal device is fed into the furnace, the dew-point meters and the outlets being placed at least at two points which respectively exist on a side wall in the vicinity of the entrance of the annealing furnace and on a side wall in the vicinity of the furnace top or the furnace bottom at a position where a steel sheet has a maximum end-point temperature, the inlets being placed at two points which respectively exist on side walls on the sides opposite to the sides of the two points for the outlets in the height direction of the furnace, making it possible to steadily control the dew-point of the atmospheric gas to be 45 C. or lower and 80 C. or higher throughout the whole area of the annealing furnace.

A system for depositing substances onto a deposition surface can comprise a first contact spotter comprising multiple spotting orifices fed by multiple fluid inlet conduits such that the first contact spotter is capable of depositing multiple spots of different substances onto the deposition surface simultaneously, and a second contact spotter comprising a second spotting orifice fed by a second fluid inlet conduit. The system can also include a positioning device adapted to alternatively position and seal the first contact spotter and second contact spotter on the deposition surface at an overlapping location.

The present disclosure provides a method and system for optimizing the dispensing of an adhesive from a dispensing device comprising a controllable setting. It consists in obtaining target parameters for a parameter of a structure formed by the adhesive after it is dispensed. Then a value of a local parameter near the dispensing device is obtained, which is a physical parameter of the adhesive in the dispensing device, an environmental condition near the dispensing device or a mechanical parameter of the dispensing device. Then a model of relationships between the local parameter, the parameter of the structure and intrinsic properties of the adhesive is generated. Using this model and the obtained values, a controllable setting for operating the dispensing device is determined to form a structure after dispensing of the adhesive that satisfies the target parameter.

A method of manufacturing a three-dimensional object is disclosed. The method includes operating a first ejector of a three-dimensional object printer to eject a first material towards a platen to form an object. The method further includes operating a second ejector of the three-dimensional object printer to eject a second material towards the platen to form support for portions of the object, the support being configured to provide support for portions of the object during the operation of the first ejector to form the object, at least one portion of the support having a body with at least one fluid path that connects at least one opening in the body to at least one other opening in the body. The method further includes connecting a fluid source to the at least one fluid path of the support to enable fluid to flow through the at least one fluid path to remove at least an inner portion the support from the object.