Abstract: The method of the present invention consists of the steps of heating an area along the length of a small diameter glass tube while the tube is being rotated, pulling the heated tube using an unidirectional force to rapidly extend the heated area while mechanically maintaining the heat source centrally located along the portion of the tubing being extended. The extended tubing is subsequently cooled and separated at the narrowed portion to produce two capillary tubes. The apparatus of the present invention consists of two independently rotatable, co-axially aligned chucks. The chucks rotate in an essentially simultaneous manner, that is, the speed of rotation of each chuck is essentially the same. Each of the chucks has an adjustable collet thereon adapted to receive and hold a section of glass tubing aligned therebetween. A means of moving one of said chucks away from the other is provided. A moveable heating means is positioned intermediate the chucks.

Abstract: In a process for heating an object made of thermoplastic material along a predetermined zone, a ring of burners arranged in series is guided along the zone and heats this zone, the zone forming a closed path and approximately matching the outer contour of the object; in a device for implementing the process, series-arranged burner units circulate on a path covering the zone to be heated, the units being guided along a closed loop.

Abstract: In a method for manufacturing a cathode ray tube, a bulb is held by a first holding mechanism. An electron gun is inserted and held in a neck portion of the bulb by a second holding mechanism. Then, the neck portion and a stem of the electron gun are welded by a welding unit. The unit includes an annular burner having an inner surface with a plurality of burner holes formed in substantially the entire area along a circumferential direction thereof. The annular burner is constructed by two burner members which can be separated in a radial direction. The burner is positioned by an opening/closing mechanism and a reciprocating mechanism such that the inner peripheral surface of the burner is coaxially located outside the neck portion and opposes the stem of the electron gun. Thereafter, the neck portion is heated by flames injected from the burner holes, and then the burner is reciprocally rotated about its axis through a predetermined angle.

Abstract: An apparatus for loading and unloading glass articles from an article cutting machine where the glass remainders of the said glass articles are removed during the manufacturing process. Said apparatus comprising: a supporting structure with a vertical shaft; means of rotating transference that are attached in axial coincidence with the said vertical shaft in order to hold and transport the articles; cams attached to the vertical shaft, wherein said transference means are placed in order to determine, through the cams the path that must be imparted to the said transference means; and drive means attached to the said transference means in order to make them rotate in a predetermined time relationship, at the stations positions of reception, feeding and delivery of articles.

Abstract: The apparatus for manufacturing the ink jet glass tubes includes a vertical mandrel which receives the tubes one at a time from a feeder and rotates them relative to a pair of gas nozzles for their heating. The tube is heated in an axially limited intermediary zone so as to form an hour-glass shaped profile.The profile of the tube is scanned by a television camera which generates two signals indicative of the internal diameter. These are compared electronically with a stored indication of the desired diameter and the two nozzles are rotated into an inactive position when this diameter is reached. The tube is cut along a plane so as to make the profile of the nozzle coincident with a reference profile by a device including an optical device connected to a cutting wheel to permit comparison of the hour-glass profile of the element with the reference profile. The severed end of the tube is then lapped and covered with a non-wettable material.

Abstract: A gas burner for externally heating a glass tube which is positioned to be rotated on a rotational axis characterized by at least two multi-jet gas port blocks having a block axis with an arrangement of jets therearound being arranged with the block axes being on a radii extending from the rotational axis. Preferably only two port blocks are utilized and they are each separately displaceable relative to one another along the rotational axis and can be simultaneously displaced together along the axis during a heating operation. The arrangement of the plurality of jets on each of the front surfaces of the multi-jet gas port blocks is such that the jets are directed to a focal line which is at a distance beyond the rotational axis and a definite distance in front of the front surface.

Abstract: A system for sealing a mount in a cathode-ray tube using first and second tiers of burners includes a first valve in an oxygen supply line and a third valve in a fuel supply line connected to the first tier, and a second valve in the oxygen supply line and a fourth valve in the fuel supply line connected to the second tier for controlling, respectively, the flow of oxygen and fuel therethrough. The system comprises a preignition timing relay responsive to a start signal and coupled to both the first and the third valves for effecting a preignition gas flow period. An ignition timer is responsive to the preignition timing relay and is coupled to both the first and the third valves and to an igniter for effecting an ignition latchup interval at the end of the preignition gas flow period. A first timing relay is responsive to the ignition timer and is coupled to both the first and the third valves for effecting a first-tier gas flow period following the preignition gas flow period.

Abstract: A method for sealing a mount including a wafer in a neck of a stationary cathode-ray tube comprises positioning a first tier of burner tips completely around the neck such that the burner tips are aimed nonradially along directions tangent to a first circle, the plane of the first circle being aligned along the wafer. The first tier of burner tips is split into at least first and second radial segments, each segment being connected to means for moving the segment toward and away from the neck. The first tier of burner tips, while remaining stationary, provide a vortical pattern of flames around the neck. The radial segments are then removed from around the stationary neck sufficiently to allow the tube to proceed along a conveyor line.

Abstract: Apparatus for sealing a mount including a wafer into a neck of a cathode-ray tube oriented along an axis comprises two tiers of burner tips. The first tier is disposed completely around the axis at a first distance therefrom and similarly aimed nonradially along directions tangent to a first circle. The second tier of burner tips is disposed completely around the axis below the first tier at a second distance from the axis and similarly aimed nonradially along directions tangent to a second circle. The first distance and the diameter of the first circle are greater, respectively, than the second distance and the diameter of the second circle.

Abstract: A machine for trimming hollow glass articles includes a support in which a semi-finished article is held stationary and immovable, and a pair of split oscillatory burners for flame cutting at least one excess end of the semi-finished article, the burners being oscillatable relative to the stationary article in order to effect the required flame cutting operation.

Abstract: A burner for a machine for the thermomechanical treatment of glass tubes is oriented obliquely with respect to a path of movement followed by the glass tubes in the machine. The burner is connected to a fuel delivery pipe and is provided with nozzles arranged in tiers in the desired direction.

Abstract: A preform from which lightguide fiber is drawn is made by depositing optically suitable layers of doped silicon dioxide on an inner wall of a rotating glass substrate tube which is exposed to a moving zone of heat during a deposition mode and during a collapse mode. During at least a first pass following the deposition mode, a contact device is caused to engage each successive increment of length of the tube during exposure to the zone of heat. The contact device causes any sagged or offset portions of the tube to be reconfigured and causes the tube to have a central longitudinal axis which is a straight line which extends between stocks of a lathe by which ends of the tube are supported. The contact device may also be used to cause the tube to have a predetermined configuration along its length.

Abstract: According to the method of aseptic and antiparticulate opening of a sealed glass ampul, one end of the ampul is submitted to a powerful thermal flux produced by flame tongue generating sources on a very localized zone for a time period sufficient to obtain melting of the glass while maintaining the adjacent portion thereof at lower temperature for preserving its rigidity, such time period being the shorter the smaller that volume of gas contained in the ampul which is quickly brought to an increased temperature and pressure to cause the ampul to be opened up in the considered molten zone.

Abstract: A system for machining a glass workpiece comprises means for rotating the workpiece. A concentrated beam of energy is axially directed to the surface of the workpiece to soften the glass material. The softened glass material is then removed by a pointed or relatively narrow tool which is precisely located with respect to the area treated by the energy beam.

Abstract: Method and machine for making vials from glass tubing, wherein at least one glass tube (22) with closed bottom is loaded on a rotatable plate (11), having a series of holes circumferentially passing therethrough, and is then grasped by upper pliers (23'), provided on a plane not coincident with the rotatable plate (11), and then grasped by lower pliers (23) also provided on a horizontal plane not coincident with a lower rotatable plate (10), the tube (22) being continuously rotated on its axis by rotating elements of the pliers (23, 23'), and rotated throughout the circumference of the machine by rotation of the suitably controlled rotatable plates (10, 11). In this rotation the tube, as drawn or pulled at suitable intervals by the pliers, is caused to pass in front of a series of burners (17) arranged in suitable number on the entire periphery of the machine, such burners being provided with parabolic arc flames.

Abstract: A glass optical waveguide filament preform is prepared by chemical reaction of vapor ingredients within a glass bait tube. As the reactants flow through the bait tube, a hot zone traverses the tube to cause the deposition of sooty reaction products in the region immediately downstream of the hot zone. A baffle tube extends into that end of the bait tube into which the reactants flow. The baffle tube, which traverses the bait tube along with the burner, ends just short of the hot zone so that no soot is deposited thereon. A gas flowing from the baffle tube creates a gaseous mandrel which confines the flow of reactant vapors to an annular channel adjacent the bait tube wall in the hot zone, thereby increasing deposition rate and efficiency.

Abstract: The invention relates to a process for calibrating sections of glass tubing, wherein a glass-tubing section is heated to a softening temperature, shaped to the calibrating dimension, and allowed to cool. The invention furthermore concerns suitable equipment for implementing this process.

Abstract: In order to react gases and/or vapors to deposit optically suitable layers of doped silicon dioxide on an inner wall of a glass substrate tube to produce a preform from which optical fibers are drawn, the glass tube is heated by a mixture of combustible gases. The combustible gases are directed along passageways in a housing of a torch assembly which confines a portion of the length of the tube and then out of the passageways to produce a flame that engages the confined portion of the length of the tube. The housing and walls that define ends of the passageways adjacent the tube are cooled to an extent which substantially eliminates oxidation of the material from which the housing and the walls of the passageways are constructed.

Abstract: A focused laser beam is directed at the wide side surface of a long, sealed, gas-filled, glass tube having a longitudinal axis and an elongated cross section. Repeated relative back and forth movement is introduced between the laser beam and the wide surface of the tube transverse to its longitudinal axis to heat and soften the tube along a cut line until the tube divides to form ends and collapses to seal the divided ends. Preferably, the tube is held in fixed position, while the laser beam is scanned across both of its wide side surfaces. The intensity and/or the velocity of the laser beam are modulated. After the tube divides along the cut line, the divided ends are annealed while still in the tube holder by defocusing the laser beam. In one embodiment, plural simultaneous cuts are made by directing a plurality of focused laser beams onto the tube at spaced intervals along its longitudinal axis.

Abstract: A glass drawing machine which has a movable oven that permits glass fibers to be drawn to size within a tolerance of .+-. 0.00025 inch.

Abstract: Method and apparatus for providing a glass tube with a uniform nozzle portion, i.e., one which has a true centerline. The method involves suspending the tube on vertically space suspension points therealong, with the lower of the suspension points being arranged to apply a dead weight to the tube. The tube is rotated at the upper of the suspension points as it is heated above its vertical center to a temperature at which it becomes slightly plastic, but below the temperature at which the dead weight could significantly stretch the tube. This heating to the point of plasticity allows the dead weight to straighten out any axial deviations in the tube. Following the straightening, the tube is heated centrally to a higher drawing temperature sufficient to allow the dead weight to stretch the tube to a predetermined length and thereby provide a uniform necked down portion centrally of the tube. The necked down portion can then be severed at its midpoint to provide two glass electrode tubes.

Abstract: A system for manufacturing lamp tubes formed in a circular configuration features a plurality of carrier devices attached to a transfer apparatus which links a lamp-tube-softening apparatus, a bending apparatus and an exhaust apparatus, respectively, in an endless or continuous manner. Each carrier device which receives and holds a sealed lamp tube from a supply source or station can thus return to its starting position after completing its passage around the lamp-tube-softening apparatus, the bending apparatus and the exhaust apparatus, respectively.

Abstract: An elongated glass tube light source containing a luminophor and a radioactive gas is subdivided into a plurality of light sources by a plurality of laser beams directed at the tube at spaced points along the length of the tube. The laser beams are scanned back and forth transversely of the length of the tube to heat the tube and fuse the glass at each of the spaced points. The tube is rigidly supported on either side of each of the points to hold the tube stationary during the cutting operation. A single source of a continuous laser beam is divided into a plurality of beams by beam splitters. Mirrors direct the beams to the spaced points along the length of the tube and mirrors are oscillated to provide the desired scanning motion of the beams across the width of the tube.