Abstract: A printing press having a plurality of laterally spaced printing stations is provided with an interstation dryer system, interposed between the printing stations, for effectively drying liquid printing substances, such as inks, coatings, and the like, on a moving printed sheet. The dryer system includes a plurality of infrared elements which are adapted to transmit infrared radiation toward the moving printed sheet to effectuate drying of liquid printing substances thereon and bonding thereto. In order to effectively dry a complete spectrum of ink colors and other liquid printing substances, the infrared elements comprise an alternating and repetitive series of shortwave infrared lamps and mediumwave infrared lamps which generate relatively short wavelength infrared radiation and relatively medium wavelength infrared radiation, respectively.

Abstract: A system and method for processing a substrate. The system includes a substrate heating station, a processing station, a conveyor for transporting the heated substrate from the substrate heating station to the processing station and a conveyor heating station. A substrate transfer station is located between the substrate heating station, the conveyor heating station and the processing station for the transfer of the heated substrate to the conveyor in a thermally controlled environment isolated from contaminants. The substrate transfer station includes a housing having an interior chamber, first and second inlets for the separate passage of a substrate and conveyor into the interior chamber, and an outlet for the egress of the substrate and conveyor. The transfer station also includes a heater and a guide assembly for directing the conveyor between the conveyor inlet and the outlet.

Abstract: A preheater and method of preheating a thermoplastic sheet prior to entry of the sheet into a differential pressure forming machine which forms an article in the sheet. The preheater includes mechanism for initially threading a sheet in a generally horizontal plane, mechanism for concurrently displacing upstream and downstream portions of the sheet in vertically opposite directions relative to the horizontal plane to dispose a portion of the sheet in an upstanding plane. A heater is provided for heating the upstanding portion of the sheet in the upstanding plane. After the sheet has been repositioned with a portion in the upstanding plane, the heater is laterally moved from an inoperative position to a sheet heating position receiving the portion of the sheet at the sheet heating station. Mechanism is provided for selectively moving the sheet downstream after the sheet has been vertically displaced.

Abstract: A heat-controlling device is provided with a transporting carriage for supporting and transporting a semiconductor substrate and a heating device having a plurality of heaters which apply heat in the width-wise direction of the heat-receiving member that is perpendicular to the transporting direction thereof and which are individually controlled by a controller. The controller only operates a set of the heaters that are adjacent the semiconductor substrate. Among the heaters being operated, those heaters, which are located at at least the leading end and the rear end in the transporting direction, have their outputs successively varied in accordance with the movement of the semiconductor substrate. Thus, it becomes possible to easily narrow the temperature distribution of the semiconductor substrate merely by controlling the output of the heaters.

Abstract: An apparatus for heating an advancing thermoplastic yarn led over heating ridges along a heated surface. An essential feature of the invention is that the heating ridges can be maintained at a temperature as high as that of the heating surface, in particular at a temperature sufficient for ensuring a self-cleaning effect, without damaging the yarn. If required, the heat flow on the yarn may also be regulated by adjusting the height of the heating ridges and/or by modifying the length of contact with the yarn.

Abstract: A system for safely removing even a hazardous contaminant from a substrate surface includes a light energy source whose output is controlled to selectively provide components primarily in the visible and infrared spectrum, and a power unit for energizing the light energy source at a desired energy level, pulse width and pulse repetition rate. Proper selection of these parameters permits the energy source to heat the contaminant sufficiently to cause direct carbonization without entering a melt phase, without the need for any precoat medium. Because the resultant molecular decomposition of the contaminant occurs relatively faster than heat transfer to the underlying substrate, substantially no substrate heating results. The light source energy transforms the contaminant to an ash that is removed from the substrate by a vacuum system preferably surrounding the light source. The light source is preferably a xenon flash lamp operated with a pulse repetition rate of between about 0.

Abstract: A temperature control method in a rapid heat treatment apparatus comprising simulatively heating dummy wafers in a process tube and previously detecting and grasping by temperature sensors a wafer temperature rising pattern, a heater temperature rising pattern and an internal atmosphere temperature rising pattern, arranging wafers to be processed in the process tube, detecting a temperature of each zone and that of each heater element by the temperature sensors, upon heating the wafers, and controlling each heater element on the basis of the detected temperatures and the wafer, heater and internal atmosphere temperature rising patterns by a controller to rapidly and uniformly raise the temperature of each wafer until the temperature of the wafers in each zone reaches the intended one and becomes stable.

Abstract: A heater (1) for an advancing thermoplastic yarn which is guided along a heated surface over ring segments (2). The flow of heat to the yarn is adjustable by changing the geometric parameters of the heat transfer.

Abstract: A drying apparatus for use in a photosensitive material processing system, which is designed so that nonuniformity of drying in a direction intersecting a belt-shaped photosensitive material, e.g., a photographic negative film, photographic paper, etc., is eliminated, and the overall electric power capacity of the system is minimized. A plurality of electric current heaters (44.sub.1 and 44.sub.2) are disposed in parallel in a direction intersecting belt-shaped photosensitive materials (F.sub.1 and F.sub.2) transported, and each electric current heater is individually current-controlled to change the temperature distribution of the heated air, thereby compensating for the nonuniformity of drying of the belt-shaped photosensitive materials (F.sub.1 and F.sub.2) in the lateral direction, for example. The electric current heaters (44.sub.1 and 44.sub.2) are individually current-controlled by making the current input time different for each electric current heater.

Abstract: A radiant-heat drier for printing presses or the like has a plurality of spaced radiant-heat drier strips (22) which extend transversely with respect to the conveyance direction and which each have in turn a radiator bar (44) and a cooling air distributor element (24) extending parallel thereto at a distance. On a wall (30) facing the radiator bar (44), the radiator bar has a plurality of air delivery nozzles (32, 34) which terminate in the immediate vicinity of the rear of the radiator element (44).

Abstract: A radiation fixing device for fixing a powder image on a sheet with the aid of heat-radiating lamellae which extend on both sides of a horizontal sheet conveyor path, the heat-radiating lamellae being situated in a housing having slot-shaped openings through which a sheet is fed into and led out of the housing. Air flow openings are provided in the base of the housing for automatically activating an air flow through the housing by means of natural convection, in areas adjacent to a sheet moving through the housing.

Abstract: A roller conveyor furnace (12) for heating flat glass sheets has top and bottom heating arrays (28,30) respectively located above and below the plane of conveyance with each heating array including a plurality of elongated heaters (32,34) extending parallel to the direction of conveyance and spaced laterally from each other with respect to the direction of conveyance. The top heating array (28) has one more heater (32) than the number of heaters (34) of the bottom heating array (30) and the bottom heaters (34) are located in a laterally staggered relationship with respect to the top heaters such that each bottom heater is located laterally between a pair of top heaters. A control (36) energizes the top and bottom heating arrays (28,30) to heat each bottom heater (34) only when the two top heaters 32 on opposite lateral sides thereof are heated to thereby prevent excessive lateral edge heating of the conveyed glass sheet.

Abstract: A first bring up zone of a camel-back oven utilizes a plurality of short and/or medium wave infrared lamps to raise the component temperature up to a desired level. Once within the paint baking oven, the component enters into the bring up zone where a computer activates the requisite number of infrared lamps at the proper intensity to achieve the desired component temperature. While the infrared lamps are activated, inlet air is directed over the lamps to prevent them from overheating. The invention allows for smoother car finishes by preventing bubbling and pops and raises the component temperature more quickly than conventional dark radiation panels.

Abstract: A method and apparatus for reflow-soldering of printed circuit boards are disclosed. A printed circuit board having electronic parts with lead wires having low temperature resistance alone or together with electronic part of high temperature resistance can be soldered according to the reflow-soldering method in a specifically designed heating zone involving plural preheating chambers and a reflowing chamber while maintaining a difference in temperature between the obverse surface and the reverse surface of the board without causing any soldering failure and any environmental pollution.

Abstract: An infra-red heater for a hybrid oven drying a web with an elongate foil having transverse corrugations heating element within a quartz tube. A thermocouple sensor is used to provide a control signal to a controller to regulate the infra-red output.

Abstract: A method of heating a portion of a continuous material strip includes heating the web through use of one or more IR lamps provided with radiation-concentrating reflectors. The IR lamps are directed towards a restricted area on the web to thereby heat the thermoplastic surface in the restricted area to a temperature that corresponds to the melting temperature of the thermoplastic. The web can be provided with a color strip in the restricted area, whereby the color strip absorbs the heat from the IR lamps.

Abstract: An open-weave conveyor moves a printed wiring board through a region of radiant energy. The conveyor has a plurality of supporting projections extending from the major surface of the conveyor to minimize engagement between the conveyor and the board, providing at least three projections supporting each board above the open-weave conveyor to eliminate a shadow effect caused by radiation blocked by conveyor strands. Guides move the conveyor along an arcuate path away from the printed wiring board in the radiation region, assuring irradiation of the entire printed wiring board surface. This technique is advantageous for simultaneously irradiating both sides of a board during a dry film solder masking technique. The solder mask is radiated to promote cross-linking of the film polymer. To reduce thermal shock and abrupt temperature rise in the workpiece, the ultraviolet source includes a water envelope to absorb infrared radiation.

Abstract: A GPS receiver comprising a pseudonoise generator for simultaneously generating pseudonoise signals respectively corresponding to satellite electromagnetic waves transmitted from two or more satellites, an oscillator for simultaneously regenerating carrier waves of the plurality of satellite electromagnetic waves, and a plurality of demodulators responsive to the regenerated carrier waves and the pseudonoise signals to demodulate individual satellite electromagnetic waves independently, to thereby regenerate data transmitted from individual satellites, each demodulator being operative, during demodulation, to detect a set of phases of one pseudonoise signal and one regenerated carrier wave relative to one satellite electromagnetic wave on time division basis and including a first mixer for mixing of one pseudonoise signal, a second mixer for mixing of one regenerated carrier wave and a filter, whereby a set of phases of one pseudonoise signal and one regenerated carrier wave is changed to another set at timed