This invention relates to an apparatus for mounting a fixture to a ceiling utilizing a downrod extending between the fixture and the ceiling.
Various ceiling-mountable fixtures, such as fans, lights (semiflushes, chandeliers, pedants, etc,) are usually connected to an electrical box, terminal, or the like, at the ceiling. When it is desired to lower the fixture from the ceiling, a downrod is often connected between the electrical box, or terminal and the fixture. To this end, a hanger ball has been used that is mounted to the ceiling and has an inner bore that receives the upper end portion of the downrod in a manner so that the downrod can be hung from the hanger ball.
The diameter of the bore of the hanger ball should correspond to the outer diameter of the downrod so that the end portion of the downrod can fit in the bore with minimum clearance to insure a stable connection. However, the diameters of the downrods often vary, creating a compatibility problem with the hanger ball, and vice versa.
Therefore, what is needed is an adapter to enable a downrod to be connected to a hanger ball in a stable manner despite variances in the diameter of the downrod and the bore of the hanger ball.
Referring to the drawings, the reference 10 refers, in general, to a downrod having an upper end portion, as viewed in the drawing, extending in, and connected to, a hanger ball 12 in a manner to be explained. It is understood that the hanger ball 12 is designed to be connected to a ceiling via a conventional mounting bracket, or the like (now shown). The other end portion of the downrod 10 is adapted for connection, in a conventional manner, to a fixture, such as a ceiling fan, light fixture, or the like, (not shown) in a spaced relation to the ceiling.
The downrod 10 is tubular and has two aligned, diametrically opposed, openings 10a and 10b (
The hanger ball 12 is spherical in shape and has an internal bore 12a. Two diametrically opposed slots 12b and 12c are formed in the hanger ball 12 that extend from the bore and from the upper end of the ball. A groove 12d is provided in the upper end portion of the hanger ball 12 to permit access to the ground screw 14.
It will be assumed that the hanger ball 12 is designed to be used with a downrod having a diameter corresponding to the diameter of its bore 12, and that the outer diameter of the downrod 10 is much less than this diameter. Hence if the downrod 10 were directly mounted in the hanger ball 12 it would create an unstable connection due to the above differences in diameters.
To enable the downrod 10 to be supported by the hanger ball 12 in a stable manner, a tubular adapter 20 is provided that extends between the outer diameter of the upper end portion of the downrod 10 and the bore 12a of the hanger ball and in a coaxial relation with the downrod and the hanger ball. The length of the adapter 20 is substantially the same as the length of the hanger ball 12, and, as better shown in
The wall of the adapter 20 has two aligned, diametrically opposed, openings 20a and 20b (
A groove 20d is provided in the upper end portion of the adapter 20 to permit access to the ground screw 14.
As a result, the upper end portion of the downrod 10 is supported along its entire length by the adapter 20, which, in turn, engages the bore 12a of the hanger ball with minimum clearance. As a result, the downrod 10 is supported by the hanger ball 12 in a very stable manner.
It is understood that several variations may be made in the foregoing without departing from the scope of the invention. For example, the upper end portion of the downrod 12 can be externally threaded and the bore of the hanger ball 12 and the adapter 20 can be internally threaded. Moreover, the grounding screw 14 could be eliminated.
Although only a few exemplary embodiments have been described in detail above, those skilled in the art will readily appreciate that many other variations and modifications are possible in the exemplary embodiment without materially departing from the novel teachings and advantages of this invention. Accordingly, all such variations and modifications are intended to be included within the scope of this invention as defined in the following claims. In the claims, means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents, but also equivalent structures.