Abstract:
A male connector 21 is fitted into a hood portion 35 of a female connector 23 by pivotally moving a lever 22 mounted on the male connector 21. Elastic provisionally-retaining arms 41 are formed on the lever 22, and at an initial stage of insertion of the male connector 21 into the hood portion 35, the provisionally-retaining arms 41 abut respectively against abutment projections 44 of the hood portion 35 to pivotally move the lever 22 into an initial connector-fitting position.
Abstract:
A lever fitting-type connector, wherein an operating force, required for pivotally moving a lever by leverage, so as to fit a connector into a mating connector, is reduced. A lever (22) is pivotally mounted on bosses (28) formed on a male connector (21), and the male connector (21) is fitted into a female (mating) connector (23) by pivotally moving the lever (22) with the bosses (28) serving as an application point. An operating portion (30), serving as a force-applying point for the pivotal movement of the lever (22), is formed at a rear end portion of the lever (22). Engagement projections (33) are formed respectively on opposite side walls (29) of the lever (22), and are disposed rather close to the bosses (28), respectively. Retaining holes (34) are formed in the mating connector (23), and the engagement projections (33) are retainingly engaged respectively in the retaining holes (34), so that the engagement projections (33) serve as a supporting point for the pivotal movement of the lever (22).
Abstract:
An exhaust gas purifying catalyst in which catalytic activation particles 3 composed of a catalytic element or its compound are carried on a carrier 1. The catalytic activation particles 3, as carried on the carrier 1 and exposed to the outside of the carrier 1, are coated with the carrier 1 by 20 to 90% of their whole surface area. Also disclosed is a process for producing the exhaust gas purifying catalyst.
Abstract:
A combined-type connector consists of a hood having at the front half a first connector-fitting chamber and at the rear half a side opening in a direction perpendicular to a connector-fitting direction; and a connector with a connector-fitting section having a second connector-fitting chamber formed therein. The connector-fitting section of the connector is inserted through the side opening into combination with the hood, moved in the direction perpendicular to the connector-fitting direction in which the connector is fitted with a mating connector. The hood and the connector can be easily combined and disassembled, though not disassembled under a force acting in the detaching direction of the connector from the mating connector.
Abstract:
There is disclosed a crimping connector in which the efficiency of the operation is enhanced by simplifying a process of crimping sheathed wires. Also the efficiency of arrangement of a terminal assembly in a mating connector is enhanced. Each of housings 10 and 11 includes an upwardly-open wire connecting portion 2 and a terminal connecting portion 3 of a closed cross-sectional shape communicating with the wire connecting portion 2, and the housings 10 and 11 are integrally connected together through hinges 4 so that the wire connecting portions 2 of the housings, as well as the terminal connecting portions 3 thereof, can be stacked one upon another vertically in the same position and the same direction, and also crimping terminals 30 in the stacked housings 10 and 11 are arranged vertically in the forward direction. Sheathed wires 40 are press-connected to the crimping terminals 30 in the housings 10 and 11 by a crimping jig 50 which moves upward and downward at the same position in the horizontal direction.
Abstract:
A table calculating device used in an interactive data system based on a personal computer or the like. When an operator specifies a position and a shade with respect to an entry on a display screen of a display unit through such an input unit as a keyboard or a mouse, a generating section generates the entry having the specified shade at the specified position on the screen of the display unit. Through the repetition of the above procedure through the generating section, a plurality of entries having such specified shapes are displayed at a plurality of specified positions and corresponding tables are also generated. A copying section copies the entry at a position specified through the input unit on the display screen. A moving section moves the entry to a position specified through the input unit on the display screen. A shape changing section changes the shape of the entry to a shape specified through the input unit on the display screen. An erasing section deletes the entry on the display screen in response to a specified command from the input unit. An editing section carries out calculation on the basis of the respective data and displays the calculation results in the respective entries of the table. A managing section stores therein and manages the positions, shape and data of the respective entries.
Abstract:
In a table calculating device, an instructing unit gives an instruction to change data of a graphic pattern corresponding to a value in one of the entries of a table, which is displayed on a display unit. A control unit controls the change of the value corresponding to the changed entry value, which is stored in a memory unit, the graphic pattern data corresponding to the entry value, and the graphic pattern data corresponding to the entry value displayed on the display unit, and causes the display unit to display again the entry value and the graphic pattern data corresponding to the entry value. Accordingly, visual and direct table preparation is possible.