McDonald Glass Hanger Board being sold by the Electrical Appliance Company

[Trade Journal]

Publication: Western Electrician

Chicago, IL, United States
vol. 21, no. 7, p. 95, col. 1-2


McDonald Glass Hanger Board.

The insulation of appliances used in high tension series arc lighting is always of the greatest importance and particularly for inside arc light wiring, where a dangerous voltage is carried into the building and directly to the lamp. The McDonald glass hanger board, shown in the accompanying illustration, consists of glass insulating knobs mounted on a glass base or support. This secures a perfect insulation which will always remain the same, as moisture or corrosion is not possible. This hanger makes, a bright, clean appearance, and can always be kept in that condition. The extra holes shown in the base allow the board to be used with three insulators, or with only two insulators, one at each end of the board. When a series of lamps is being hung the board at end of the series may be used with two insulators, while all the other boards should be used with three insulators. Thus, when the wire reaches the first board it is tied to the first of the two insulators at' the double end; from this point a loop is made for the lamp and the line wire leaves from the other insulator on the double end. This is repeated on each board of the series until the last board having only two insulators is reached. On this board the line goes first to the insulator at one end of the board, then through the lamp to the insulator at the other end. From this point it starts back out of the building, using as support the free insulators on all of the boards having three insulating knobs. This makes a neat arrangement of the loops, and at the same time a perfect insulation of both wires. The McDonald glass hanger board is being placed on the market by the Electrical Appliance company of Chicago.

 

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M'Donald Glass Hanger Board.

 

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Keywords:Knob : McDonald Glass Hanger Board
Researcher notes: 
Supplemental information:Design Patent: 28,743 Article: 9171
Researcher:Bob Stahr
Date completed:February 19, 2009 by: Bob Stahr;