a) Field of the Disclosure
This disclosure relates to the maintenance of mechanical components and techniques used for overhead garage doors, and more particularly to the removal of worn out support bearings used for a rotatable shaft used for weight support of the garage door, and the replacement of these with fresh bearings.
b) Background Information
The rotatable support shaft of a garage door is generally positioned at a location above the garage doorway and is supported from a portion of the garage structure that is above the doorway. For many years, even decades, the removal of the bearing has been done by impacting the bearings with a hammer and then the fresh bearing would be hammered into its place. This method is awkward, time consuming and sometimes damaging to the components. This is particularly true of the use of a hammer in impacting the fresh bearings into place. The person needs to be very cautious in using the hammer to make sure not only to make sure the bearing is properly positioned, abut also that the bearing is not damaged.
This disclosure relates to a system which is made up of a combination of apparatuses and processes by applying the apparatuses in a series of steps. To clarify how this is being done, in the following texts, the various items off apparatuses will be repeated and the step or steps that are associated with these will be accomplished.
The ultimate goal is to place and remove a bearing without further damaging the bearing, shaft, nor supporting flange.
As indicated above, the method and system of the present invention relate to the maintenance of the mechanical components of overhead garage doors, and more particularly is directed to solving a long existing problem of an ineffective method of removing and replacing support bearings used for a rotatable support shaft for weight support for a garage door.
In order to be able to better describe the present invention, there will first be a fairly detailed description of the prior art. Over the last several decades it has become more common to see garage doors that are arranged to be vertically retractable from a closed lower position to an overhead rear stowed position. One common design of the door is to have a plurality of hinges connecting elongate small width door sections which in the closed position extend across the entire garage front entryway, so as to be one above the other in vertical alignment with one another.
To guide the garage door, in one form, there are normally provided two side guide rails that are located on opposite sides of the automobile parking area and positioned along the path along which the door sections are to travel. Then there may be a roller system where there are two sets of spaced rollers operatively connected to opposite end portions of the connected door sections. The rollers of each set are commonly evenly spaced from each other, and are positioned to travel along the paths defined by the rails back and forth between the upper stowed position and the front entryway closed position.
To continue further with the description of the prior art, reference is now made to
Support brackets 10 are provided for the shaft 18 at opposite ends of the shaft 18, and possibly one or more supporting brackets 10 in between. Each bracket 10 comprises a plate 12 and is provided with a support bearing 20 within which the shaft 18 rotates.
Also, reference is made to
There is provided a torsion assembly (i.e. a spring arranged to provide torsion for the shaft 18) at each end of the shaft 18 at the opposite ends of the shaft 18 or other locations to enable the bearing members 21 and 22 to rotate. However, the weight of those portions of the door that are in the front vertical position is still reacted into the shaft 18. Therefore with the garage door being raised and lowered with any frequency, the bearings 20 around the shaft are still stressed sufficiently to eventually become worn out.
There is shown a metal support plate 12 functioning as a bracket 10 and having connecting flanges 13 and 14 which are used to connect the plate 12 to the structure of the garage itself. There is a circular opening 17 in the plate 12 and in which the shaft 18 is rotatably mounted.
All of the items shown in
With the discussion of the existing prior art components having been completed, we will now begin our description of the present invention.
The present invention comprises a bearing removal and replacement assembly 26 which comprises three members, namely:
The force reacting member 28 comprises a surrounding cylindrical wall 34 having a front edge 36, which in its operating position bears against the plate 12 or other structural member in which the bearing is located. This force reacting member 28 also comprises a connected back plate portion 37 having a center opening 38.
The drive bolt member 30 comprises a threaded shank 40 and a bolt head 42. The shank 40 has a helical threaded section along the shank that extends along the entire length of the shank 40. In operation, the bolt shank 40 is inserted through the opening 38 of the back wall 37 and into engagement with the threaded through opening 43 of the bearings removal member 31.
As the drive bolt 30 continues to rotate, the action of the threads causes the shank 40 to travel further into the threaded opening 43 in the bearing removal member 31 which is consequently drawn toward the bearing 20.
As the bearing removal member 31 continues moving against the bearing 20, the bearing 20 is positioned by press fit into its mounted position in the bracket 10 and into the interior of the cylindrical wall 34 of the force reacting member 29. The contact surface of the bearing removal member 31 has a circular recess 54 to accommodate a more delicate edge portion of the bearing 20. The bearing removal member 31, in one form, comprises a circular sidewall 44 slightly smaller in diameter than the inner surface 46 of the bearing 20 to guide the apparatus. The bearing removal member 31 also comprises a bearing engagement surface 68 which exerts force linearly upon the bearing 20 as will be described. In one form the Bearing removal member is reversible and comprises circular sidewall 48, circular recess 66, and bearing engagement surface 56 to accommodate a bearing having a different (in this case smaller) inner surface 46.
To summarize some of the above text, as shown in
Reference is now made to
With reference to
In
In
To remove a damaged bearing, the same series of steps are performed, but in reverse. The three components 28, 30 and 31 are moved to locations on opposite sides of the bracket 10, and the fresh bearing 20 is moved back into the shaft opening in the bracket 10. One of ordinary skill in the art will be able to operate the device following this description.
It should be recognized that the steps which have been described in the text are rather simple hand operated tasks. The exception to this is the drive bolt member 30 can be initially screwed into the bearing removal member 31 by hand, but that when the member 30 goes further into the threaded bearing member 31, it would usually be necessary to have a hand wrench for further rotation of the drive bolt member 30.
Also, it should be further recognized that the plate 12 with the bearing 21 is at a location above the doorway, and in most instances, this would be sufficiently high so that the person who is removing the bearing would have in all likelihood to be on some sort of step ladder or other device so that the person could be at a level to perform the operation of removing and replacing the bearing 20. The fact that this is a relatively simple hand operation makes the entire task of removing the bearing 20 rather simple.
While the present invention is illustrated by description of several embodiments and while the illustrative embodiments are described in detail, it is not the intention of the applicants to restrict or in any way limit the scope of the appended claims to such detail. Additional advantages and modifications within the scope of the appended claims will readily appear to those sufficed in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus and methods, and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the spirit or scope of applicants' general concept.
This application claims priority benefit of U.S. Ser. No. 61/310,409, filed Mar. 4, 2010 and incorporated herein by reference.
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Number | Date | Country | |
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61310409 | Mar 2010 | US |