Abstract: A catheter includes a balloon and a shaft having a coaxial portion including an outer tubular member having a bore, a transition neck, an access fitting adjacent the proximate end of the catheter shaft for directing a guidewire into the catheter shaft, an inflation port, a guidewire tubular member disposed coaxially in the outer tubular member, the outer tubular member and guidewire tubular member defining a first, annular inflation/deflation lumen fluid communication with the inflation port, at least one second inflation/deflation lumen separate from and non-coaxial with the guidewire tubular member and having a cross-sectional area less than the cross-sectional area of the first inflation/deflation lumen and opening at a proximate end into the first inflation/deflation lumen and at the distal end of the transition neck.

Abstract: A fluorescent lamp capable of fully securing a portion for containing a mercury amalgam pellet and reliably preventing the mercury amalgam pellet from moving toward the inside a discharge tube, and a method for manufacturing the fluorescent lamp. The fluorescent lamp includes a glass tube having a fluorescent substance layer on the inner surface, a sealed portion formed at an end of the glass tube, a slender glass tube having an inner space that is in communication with the inside of the glass tube and is not in communication with the outside of the glass tube, and a mercury amalgam pellet contained in the slender glass tube. The slender glass tube has a small-diameter part with an inner diameter smaller than the diameter of the mercury amalgam pellet and a large-diameter part with an inner diameter larger than the diameter of the mercury amalgam pellet.

Abstract: Alkali metal-containing glass beads for use as sources in thermionic detectors for gas chromatography are manufactured by a method which produces reproducible beads of preselected sizes. A glass tube of the desired composition is reduced to capillary size. A section having the volume of the desired bead is cut from the capillary tube and threaded onto a support wire. It is then melted and caused to coalesce onto the support wire. The resultant bead and a portion of the support wire are then incorporated into the detector.

Abstract: An apparatus for forming a glass product which comprises: a single glass gob feeding device for feeding a glass gob to a mold for forming a formed body; a press forming device for press forming the glass gob into the formed body of a predetermined shape; a formed body removing device; a plurality of carrier means on which the mold is loaded; and a transfer means for transferring and circulating the carrier means on which the mold is loaded in an order of the glass gob feeding device, the press forming device, the formed body removing device, and back to the glass gob feeding device; wherein, assuming a path is defined as a path for transferring and circulating the carrier means by the transfer means, a single path or a plurality of paths is or are provided for the single glass gob feeding device.

Abstract: In production of a closed package-type semiconductor assembly provided with a built-in semiconductor element and conductive leads for connection to outside devices, a conductive island, the conductive leads and other accessories are united together by one stage moulding of molten glass. Simple process reduces the production cost greatly and no use of dusty ceramic components much raises functional reliability of the product.

Abstract: Apparatus for forming glass to metal hermetic seals in a terminal assembly of a housing part wherein an upwardly directed glass melting heating gradient is applied to a housing part having a glass sleeved terminal pin supportedly disposed in an aperture therein with sufficient heat intensity to flow the glass sleeve in an upwardly direction from bottom to top to fuse the terminal pin in the housing part with minimal voids.

Abstract: An apparatus for manufacturing a glass stem for an electron tube comprises a first (upper) stem mold assembly and an improved second (lower) stem mold assembly. The improved second stem mold assembly includes a universal second (lower) stem mold having a plurality of lead-in conductor receiving openings formed therethrough. At least one removable stem mold plug is disposed and retained within one of the openings.

Abstract: An apparatus for manufacturing a glass stem for an electron tube comprises a first mold assembly and a second mold assembly for forming the stem therebetween. The glass stem includes a plurality of fillets with a lead-in conductor through less than all of the fillets and at least one dummy fillet without a lead-in conductor therethrough. The first mold assembly includes a universal stem having a mold block with fillet-forming openings therein. A replaceable marker pin is disposed and retained within the openings. The marker pin has a first end and an oppositely disposed second end. The first end has a distinctive geometric shape for contacting the dummy fillet and for conveying intelligible information thereto.

Abstract: An apparatus used to manufacture a molded glass stem comprises a plurality of conventional lower stem mold assemblies and a plurality pre-heating, heating, forming, and annealing stations. The forming stations include at least one primary forming station having a primary upper stem mold assembly and at least one secondary forming station having a secondary upper stem mold assembly. The primary upper stem mold assembly includes a primary universal stem mold having primary fillet-forming means formed in a first mold block thereof. The secondary upper stem mold assembly includes a secondary universal stem mold having secondary fillet-forming means formed in a second mold block thereof. The primary fillet-forming means includes a plurality of longitudinal fillet-forming openings formed through the first mold block of the novel primary universal stem mold. A plurality of novel primary inserts are replaceably disposed within the openings in the first mold block.

Abstract: An apparatus for manufacturing a glass stem for an electron tube has a plurality of lead-in conductors and a plurality of fillets with the lead-in conductors extending through the fillets. The apparatus comprises a first stem mold assembly and a second stem mold assembly for forming the stem therebetween. The first stem mold assembly comprises a universal stem mold having a plurality of longitudinal fillet-forming openings formed through a mold block. A plurality of inserts are replaceably disposed and retained within the openings in the mold block. Each of the inserts has a first end, an oppositely disposed second end, and a shank portion therebetween. Each of the inserts has a recess provided in the first end and a lead-accommodating opening extending from the recess into the shank portion of the insert. The mold block also accommodates one or more solid inserts in the openings to produce stems having dummy fillets, i.e., fillets without lead-in conductors therethrough.

Abstract: A stem mold includes an improved first (upper) mold assembly and a conventional second (lower) mold assembly. The first mold assembly includes a conventional mold head and a plurality of lead-weights which are attached to one end of the mold head. The first mold assembly is improved by the inclusion of a novel first mold block which has a plurality of fillet recesses therein which communicate through guide openings with a plurality of buffer-pin-wells extending into a cavity in a second surface of the mold block. A novel lead-weight translator is disposed within the cavity in the mold block. The translator has a translator recess formed in one surface and a plurality of lead-weight apertures extending from the recess through the other surface of the translator. A pin holder is disposed within the translator recess. A plurality of pin apertures are formed through the pin holder and aligned with the buffer-pin-wells in the mold block and also with the lead-weight apertures in the translator.

Abstract: A method and apparatus for assembling and fusing glass to metal in a glass-metal electrical component is disclosed. The component includes a metallic shell formed with upper and lower cylindrical recesses connected together by longitudinal passages, a pair of metal rings and plural metal pins assembled to define electrical feed-throughs. The component parts are assembled on a fixture having a sleeve-like projection and a central mounting projection establishing concentric nesting surfaces to which the metal rings are slip-fitted in concentric alignment with each other spaced from sidewalls of the lower recess. The pins are in electrical contact with the metal rings. A glass pre-form is seated within the upper recess. The assembled structure is heated to a temperature sufficient to melt the glass pre-form which flows under gravity through the passages into the lower recess to provide an insulative seal between the metal parts.

Abstract: An electrochromic printhead and a method of construction thereof in which the printhead is fabricated from an array of spaced, precisely positioned, small glass tubes. The array of glass tubes defines an array of cylindrical apertures extending through the printhead to form a printing pattern at a printing surface. Each cylindrical aperture has a conductor therein as an active electrode, which defines one dot of an array or matrix of dots possibly formed by the electrochromic printer. An additional conductor is provided as a reference electrode, such that a voltage may be applied between selected active electrodes and the reference electrode to define a particular printing pattern. Electrode wear is substantially eliminated by applying a coating of rutenium oxide crystals on each active electrode at the printing surface. In one disclosed embodiment, each active electrode is formed by a conductive coating applied along the interior surface of each cylindrical aperture.

Abstract: Reed switch contact unit is made in a sealed box and a pivotally-mounted guide member (7) with a V- or Y-shaped slot aligning the bottom reed during assembly.

Abstract: A holder (55) for supporting in alignment a plurality of spaced electrodes (18) and (19) to be sealed into a corresponding plurality of envelopes (14) includes a metal base (82) which supports a stripper plate (87). A plurality of posts (36) extend from the base (82) through a plurality of seats (86) in the stripper plate. In preparation for a mass sealing operation the envelopes (14) are placed onto the seats (86) and a pair of the electrodes (18) and (19) are attached to the end of each of the posts (36). A graphite heater plate (61) having a plurality of apertures (72) is joined with the base plate (82) such that the apertures rest in concentric alignment about upper ends of the envelopes (14). An upper weight plate (92) rests on the heater plate (61) to bring weighted guide caps (46) into contact with the electrodes (18) and (19).

Abstract: A method of assembling electric lamp prongs and an installation for realization thereof relate to the equipment for making electric vacuum devices, e.g., incandescent and fluorescent lamps.According to this method the prong parts, i.e., flanges and exhaust tubes held in the clamps of a chain conveyor are heated before fitting them with electrodes. In the installation for the realization of said method the burners for heating the flanges and the exhaust tubes are installed in the order of prong assembly before the electrode-loading device, the actuating mechanisms of the electrode-loading device, the prong-stamping mechanism and the exhaust tube hole-blowing mechanism being located on one of the conveyor sprockets. This rules out the burning up of electrodes during heating of the prong parts, reduces considerably the time required for heating the parts, steps up the output and simplifies the design of the installation.

Abstract: A machine for assembling the plural contact pairs of a multi-element reed capsule switch inside of a glass envelope and maintaining the overall assembly in alignment while the glass envelope is heated and sealed around the terminal ends of the contact pairs. Plural pairs of the reed switch contact members and the glass envelope are manually assembled into intermediate loading fixtures. The machine then automatically transfers the contact members and glass envelope to chucks for maintaining them in correct alignment; the chucks position the contact members inside of the glass envelope; the machine pressure chamber closes and is rapidly evacuated of atmosphere, flushed, and pressurized with an inert gas and the glass sealed about the contacts all while maintaining the correct alignment.