Abstract: A method of molding a glass element in which a glass material is heated and then press-molded between an upper mold and a lower mold when a temperature of the heated glass material reaches a predetermined temperature. A first cooling of the glass element is performed with the glass element in contact with the pair of molds until a temperature of the glass element is within a range of .+-.20.degree. C. of a glass transition point of the glass material while a pressure applied to the glass element by the upper and lower molds is gradually reduced until the pressure becomes 0 kg/cm.sup.2. Subsequently, a second cooling of the glass element is performed without the upper and lower molds contacting the patterned surface on the glass element. The upper mold has a bottom surface and a sidewall surface with a lowermost end portion of the side wall surface, adjacent the bottom surface, being inclined with respect to a central axis of the upper mold.

Abstract: The apparatus for preparing quartz micropipettes includes a pair of carriers mounted on a linear ball bearing guide which grasp opposite ends of a quartz glass capillary tube. A pair of miniature torches fueled by a mixture of oxygen and propane simultaneously heat a portion of the center of the capillary tube and an inverted U-shaped bar disposed between the torches in propinquity to the capillary tube. A cable having one end attached to one of the carriers and the other end attached to the core of a solenoid, the intermediate portion of the cable being wound around a pulley and attached to the second carrier, is used to pull the capillary tube in opposite directions as the tube softens. The cable is also wound around the axle of an optical encoder assembly which sends an electrical signal to a computer based upon either the distance or velocity at which the tubing is pulled apart.

Abstract: A smoking pipe formed of a spherical body having a top cavity for receiving combustibles, a shank tube receiving cavity, and a mouthpiece tube receiving cavity. An air passage connects the shank tube receiving cavity and the top cavity, and an air passage connects the mouthpiece tube receiving cavity to an exit hole at a lower portion of the spherical body. The shank tube is inserted into the shank tube receiving cavity and the mouthpiece tube is inserted into the mouthpiece tube receiving cavity. The spherical body, when placed over a standard beverage bottle such that the shank tube extends into the bottle interior, forms a substantially air tight seal with the inner rim of the bottle top. Operation as a water pipe is thereby effected.

Abstract: A ceiling texturing device, comprising a drive, a drive shaft attached to the drive whereby the drive rotates the drive shaft, adjustable reciprocating device attached to the drive shaft such that the rotating motion of the drive shaft is converted to reciprocating motion and the amount of reciprocating motion can be selectively varied, a piston rod attached to the adjustable reciprocating device such that the adjustable reciprocating device moves the piston rod in a reciprocating motion and a ceiling texturing device attached to the piston rod such that the piston rod moves the ceiling texturing device in a reciprocating motion.

Abstract: When tobacco shreds continuously supplied while the supply amount thereof is controlled are wrapped continuously with an elongated cigarette paper to form a tobacco rod and the tobacco rod is cut to predetermined lengths to manufacture cigarettes, the filling amount (filling density) of tobacco shreds at every portion in the lengthwise direction of tobacco rod is continuously measured in connection with the wrapping operation of the tobacco rod. The filling amount (momentary value) at every portion of the tobacco rod is compared with threshold values set in advance to detect a local excess filling portion and/or deficient filling portion of the tobacco shreds. This detection result is output in synchronization with the conveying timing of a cigarette having a predetermined length continuously cut from the tobacco rod, by which a cigarette including the local excess filling portion or deficient filling portion of tobacco shreds can be rejected surely.

Abstract: There is provided a biodegradable filter tow or filter material from renewable raw materials for the use as a tobacco smoke filter element of cigarettes, cigars or pipes as well as a method for preparing it, wherein fibers, films or foams prepared in an extrusion method from biopolymers based on thermoplastic starch or its polymer compositions are processed to the filter tow or filter material according to the present invention.The advantages of this invention reside in the use of mainly renewable raw materials, a fast and complete biodegradability of the natural biopolymer filter material, a pollutant-reducing flavor-increasing filtering effect and an economically favorable preparation method.

Abstract: A process is described for producing a desired breaking point for breaking the glass wall of a glass body, in particular a break-open ampule or a tube, or for separating parts out of a pane of glass by generating microcracks in the breaking zone, in which process the microcracks are generated in the interior of the glass wall or the pane of glass.

Abstract: A tobacco enhancement apparatus and a method of enhancing tobacco using the apparatus comprising a tunnel (12) having a vibratory conveyor floor (18), and an inlet (14) for receiving unexpanded tobacco shreds. A steaming and swirling station (32) is located downstream of the inlet and comprises an array of overhead steam nozzles arranged above the floor for steaming and expanding the shreds. The steam nozzles are positioned and angled to create vortices amongst the shreds. A conditioning venturi station (50) is located downstream of the steaming station for prolonging the exposure of the expanded tobacco shreds to conditions of increased vapor pressure. A set point controller (198) is provided for automatically monitoring and adjusting the downward angle of the steam nozzles, the steam pressure, the height of the nozzles, the height of the venturi station and the temperature of the expanded tobacco.

Abstract: A system for heating a cigarette to evolve an aerosol upon consumer request comprises a cigarette and a lighter. The lighter includes a housing into which the cigarette is inserted, and a stationary heater inside the housing is positioned in thermal proximity to the cigarette. The cigarette is rotatably mounted inside the housing. When a puff is desired, heat is applied to the cigarette to produce the aerosol. Prior to the next puff, the cigarette is slightly rotated to position a fresh portion of the cigarette in proximity to the stationary heater, and this procedure is repeated until the cigarette is spent.

Abstract: A method for manufacturing a glass preform from a metal sulfide chalcogenide glass to which a large amount of light emitting substances can be added includes steps of etching a surface made of the chalcogenide glass or oxychalcogenide glass of disc shape core and clad forming glass starting materials by an etchant including an acid and a compound reacting with a hydrogen chalcogenide, and forming the core forming glass starting material and the clad forming glass starting material into a united body serving as a glass preform. In a method for manufacturing a single-mode glass fiber using a preform method by drawing the glass preform whose outer round surface is made of a chalcogenide glass or oxychalcogenide glass, the outer round surface of the glass preform is etched using an etchant including an acid and a compound reacting with a hydrogen chalcogenide and then drawn into the glass fiber.

Abstract: A system for tempering glass plates has preheating zone (1) in which several glass plates (7) stacked vertically in compartmented car (6) are heated together to a temperature below the tempering temperature of for example 650.degree. C. (for example 300.degree. C.). Preheated glass plates (7) are moved individually from preheating zone (1) into heating zone (2). In heating zone (2) glass plates (7) are heated to the tempering temperature, their being inclined to the vertical at an acute angle and being held by air cushions between two heating plates. On the lower edge of the two heating plates of heating zone (2) there is transport device which supports glass plates (7) simultaneously to the bottom. Glass plates (7) heated to the tempering temperature are moved into cooling zone (3) which has cooling plates aligned parallel to the heating plates and between which glass plate (7) is pushed for quenching.

Abstract: A manufacturing method for a glass product not having a rotatively symmetric body like an optical fiber fixing member but having a fine structure as of optical fiber engagement portions, to transfer the fine structure with a high precision without creating molding burrs, includes the steps of placing a glass material in a cavity defined by a lower mold, an upper mold, and a side mold, molding the glass material in the cavity with pressure into the glass product in so controlling that the glass material has a viscosity range of 10.sup.6.5 to 10.sup.9.

Abstract: Improved flavorful and aromatic tobacco materials and processes for producing flavorful and aromatic components from tobacco material are provided. The processes involve subjecting substantially dry liquid free tobacco material directly to heat treatment in an enclosed pressure controlled environment at a temperature for a period of time such that flavorful and/or aromatic substances are provided while excess weight loss in the tobacco material is avoided.

Abstract: A system for melting and delivering glass to a work area such as spinners for making fiberglass includes a melter with heaters so arranged that the "hot spot" in the molten glass is located away from the walls and corrosion sensitive parts so that the various elements of the melter wear out at substantially the same time. The system is further provided with a dual exhaust arrangement when the melter, conditioner and forehearth are located on the same floor of the plant, the first exhaust being at the juncture of the melter and conditioner, and the second being an alternating replacement for one of the heating/cooling orifices and mechanisms in the conditioner, so as to effectively limit the amount of corrosive volatiles reaching the forehearth.

Abstract: A method for coating an optical fiber (1) has the optical fiber (1) exiting the longitudinal direction through a coating nozzle (10) from a volume (11) which is filled with a liquid hardenable coating material (6). The surface of the fiber is spaced from the wall (12) of the coating nozzle (10). The viscosity of the coating material (6) at room temperature is greater than 2500 mPa.multidot.s and the temperature of the coating material (6) is adjusted high enough for the coating material (6) to have a viscosity of less than 2000 mPa.multidot.s.

Abstract: A cooling system for use with a glassware machine having a plunger, a mold and a valve. The system includes a supply of cooling fluid such as air. The system further includes devices for cooling the plunger, the mold and the valve that are in communication with the supply of fluid.

Abstract: A forming station (26) for roll forming a heated glass sheet include a forming conveyor (62) including forming rolls (66) that are moved upwardly between horizontal rolls (46) of a horizontal conveyor (44) on opposite sides of a centerline (C/L) of the horizontal conveyor to rollingly engage the heated glass sheet above a plane of conveyance of the horizontal conveyor at its centerline to roll form the glass sheet in cooperation with a forming press (80) having rotatable forming members (82) that rollingly engage the heated glass sheet from above. A second set of forming rolls (68) cooperates with the first set of forming rolls (66) to provide the roll forming. First and second sets of roll cradles (76,90) are mounted by pivotal supports (128,142) on associated first and second carriages (154,156) and moved by first and second actuators (78,92). Lateral movement of the carriages (154,156) provides versatility in the glass sheet shapes that can be formed.

Abstract: The invention is a medium color gray soda-lime-silica glass composition having excellent ultra violet and infra red absorbing ability. The colorants of the glass composition consist essentially of: greater than 0.5 but less than 0.9 wt. % total iron oxide as Fe.sub.2 O.sub.3 ; 0.1 to 1.0 wt. % manganese compound as MnO.sub.2 ; 0.0005 to 0.003 wt. % selenium as Se; 0.002 to 0.010 wt. % cobalt oxide as Co; up to 1.0 TiO.sup.2 ; the glass composition having, at 4.0 mm. thickness: 485-570 dominant wavelength, less than 5% purity of excitation, 35 to 60% light transmittance using Illuminant A, less than 40% ultra violet transmittance measured over 300-400 nm, and less than 45% infra red transmittance measured over 760-2120 nm.

Abstract: A method of and system for detecting glue skips on tipping paper used to secure filters to cigarette tobacco rods and the rejection of defective cigarettes based thereon in which a particle radiation sensor is used to monitor the amount of glue applied to the tipping paper and a laser edge detector is used to monitor for proper alignment of the tipping paper during cigarette tipping operations in a typical cigarette manufacturing machine. The signals output from the particle radiation sensor are fed to a skip detection system which produces an output signal upon detecting a glue skip or a loss of glue.

Abstract: A flat glass panel 1 for a picture display device of the flat type, is formed by two glass cover plates (3, 5) with at least one glass plate (4, 4', 4", . . . ) between them, and a vitreous frit (8) between the cover plates along the outer edges of the cover plates so as to obtain a box-type glass panel in which a channel structure is present. After heating to the melting temperature of the frit (8), the panel is cooled down to a transitional temperature of the frit, while the space between the cover plates is partly exhausted during the cooling-down phase at a temperature which lies between the melting temperature and the transitional temperature of the frit. Then the temperature is kept constant at approximately the transitional temperature until the frit has become undeformable, said space (13) between the cover plates (3, 5) being fully evacuated then. Finally, cooling-down continues to room temperature, and the space (13) inside the panel is hermetically sealed off.