The present invention pertains to a spindle used in a door handle assembly. More particularly, the present invention pertains to a dual member spindle configured to be connected to a door handle using a set screw.
Spindles used in door handle assemblies are generally known in the art. Some door assemblies use a set screw to secure the door handle to the spindle. In such an arrangement, the set screw is inserted into an opening in the handle and embedded into the spindle, thereby connecting the handle to the spindle. For proper spindle performance, it is important that the spindle is properly installed, enabling the set screw to maintain a secure connection with the spindle. It is desirable that the set screw is aligned to engage a seam formed between the parts of the spindle. In the event that the set screw is misaligned during installation, it is desirable that the spindle provide one or more thin walls capable of deflection or penetration by the set screw. One disadvantage of conventional spindle arrangements is that they generally provide a limited number of thin walls capable of penetration by a set screw.
In addition, and as shown in
The present invention is provided to solve these and other problems.
The present invention provides a spindle for a door assembly.
According to one aspect of the invention, the spindle comprises a first member having a base and a first leg extending from the base and a second leg extending from the base and a second member having a base and a first leg extending from the base and a second leg extending from the base. The first member confronts the second member. As such, the first leg of the first member confronts the second leg of the second member and the second leg of the first member confronts the first leg of the second member.
According to another aspect of the invention, the second leg of the first member is recessed relative to the first leg of the first member and the second leg of the second member is recessed relative to the first leg of the second member.
According to another aspect of the invention, the first member includes a semi-circular cavity defining a first tapered portion in the first leg, and a second tapered portion in the second leg and a thin section in the base. The second member includes a semi-circular cavity defining a first tapered portion in the first leg, a second tapered portion in the second leg and a thin section in the base.
According to another aspect of the invention, the first member confronts the second member wherein the first tapered portion of the first member confronts the second tapered portion of the second leg and the second tapered portion of the first member confronts the first tapered portion of the second member.
According to another aspect of the invention, the first leg of the first member includes a first pillar and the second leg of the first member includes a second pillar and the first leg of the second member includes a first pillar, and the second leg of the second member includes a second pillar, cooperatively forming a bow adapted to provide an interference fit to secure the spindle in an opening formed in a door member.
Other features and advantages of the invention will be apparent form the following specification taken in conjunction with the following drawings.
In the accompanying drawings forming part of the specification, and in which like numerals are employed to designate like parts throughout the same,
While this invention is susceptible of embodiments in many different forms, there is shown in the drawings and will herein be described in detail a preferred embodiment of the invention with the understanding that the present disclosure is considered to be an exemplification of the principles of the invention and is not intended to limit the broad aspect of the invention to coupling assembly the embodiments illustrated.
Referring now to
The handle assembly 30 includes an interior escutcheon 32, an exterior escutcheon 34, a fastening member 36, a door handle or lever 38, a locking mechanism 39, a spindle 42, and a set screw or fastener 44. The interior escutcheon 32 engages one side of the door member 22 and exterior escutcheon 34 engages the other side of the door member 22. The exterior escutcheon 34 includes one or more hub members 37 adapted for insertion into bore 28. Similarly, the interior escutcheon 32 can also include one or more hub members (not shown) adapted for insertion into bore 28.
Fastening members 36 are inserted into the bores 28, to fasten the exterior and interior escutcheons 34, 32 to the door member 22. The locking mechanism 39 is inserted into the upper bore 24 of the door member 22 and cooperatively engages the exterior escutcheon 34. The door handle 38 includes an opening 40, adapted to receive the spindle 42. The handle 38 further includes a second opening 41 adapted to receive the set screw 44 or a like fastening member. As shown in
The spindle 42 is adapted for insertion into the lower opening 26 of the door member 22. The spindle 42 operatively engages the door handle 38. As shown in
The first leg 58 projects generally perpendicularly outwardly from the base 56. The first leg 58 extends between the first end 52 and second end 54 of the base 56. Preferably, the first leg 58 has a length approximately equal to the length of base 56. The second leg 60 projects generally perpendicularly outwardly from the base 56. The second leg 60 extends between the first end 52 and second end 54 of the base 56. Preferably, the second leg 60 has a length approximately equal to the length of the base 56. The first leg 58 and second leg 60 have different heights. Preferably, the height of the first leg 58 is greater than the height of the second leg 60 such that the second leg 60 is recessed relative to the first leg 58.
The first leg 58 includes a first pillar 62. In the present embodiment, the first pillar 62 is positioned proximate to a central portion of the first leg 58. Preferably, the first pillar 62 has a width approximately equal to half the width of the base 56. The second leg 60 includes a second pillar 64. The second pillar 64 is positioned proximate to a generally central portion of the second leg 60. Preferably, the second pillar 64 has a width equal to approximately half the width of the base 56. In the present embodiment, the first pillar 62 has a height greater than the second pillar 64 height such that the second pillar 64 is recessed relative to the first pillar 62. Preferably, the second pillar 64 and first pillar 62 engage each other proximate to the mid-width of the spindle member 42, forming a step 66.
A generally semi-circular cavity 68, 70 is formed proximate to the respective first and second ends 52, 54 of the spindle member 48. The cavity 68, 70 extends generally from the respective first and second ends 52, 54 of the spindle to the respective pillars 62, 64. As shown, the semi-circular cavity 68 forms a first tapered portion 72 in the first leg 58, a second tapered portion 74 in the second leg 60, and a generally thin wall section 76 in the base 56. The thin wall section 76 is generally thinner in width than the peripheral corner portions 78, 80 of the base 56. Similarly, proximate to the second end 54, the semi-circular cavity 70 forms a first tapered portion 72 in the first leg, a second tapered portion 74 in the second leg, and a generally thin wall section in the base 56.
As explained in greater detail below, each spindle member 48, 50 is bowed at a central portion thereof. When the spindle members 48, 50 are properly positioned to form the spindle 42, the bowed portions cooperate with the lower bore opening 26 of the door member 22 to provide an enhanced fit.
Referring now to
The first pillar 62 of the first member 48 confronts the second pillar 64 of the second member 50 and the second pillar 64 of the first member 48 confronts the first pillar 62 of the second member 50, forming a bow 86 at a central portion of the spindle 42.
Further, the first tapered portion 74 of the first leg 58 confronts the second tapered portion 76 of the second leg 60. The second tapered portion 76 of the second leg 60 confronts the first tapered portion 74 of the first leg 58. The semi-circular cavity 68 formed in the first spindle member 48 and the semi-circular cavity 70 formed in the second spindle member 50 define a circular cavity 88 formed in the end of the spindle. In a confronting position, the bases and walls form the spindle. As such, the spindle 42 has a peripheral configuration having a predetermined outer dimension. This outer dimension will correspond to the opening 40 in the door handle 38.
In the door handle assembly 30, the first end 52 of the spindle 42 is inserted into the opening 26. The second end 54 of the spindle 42 received by the opening 40 in the door handle 38. As such, the bow 86 engages the opening 26, creating a secure interference fit therewith. The set screw 44 is inserted into the opening 41 in the handle 38. The set screw 44 engages one of the thinned bases 56 or sidewalls 82, 84 of the spindle 42 connecting the handle 38 to the spindle 42. Preferably, the spindle 42 is orientated in the door handle 38 such that the set screw 44 engages one of the seams 90 or 92 formed between the side walls 82, 84, providing a secure connection with the spindle 42.
The benefits of the present spindle assembly 42 are apparent. The spindle 42 includes a plurality of thin walls, which enables embedded connection by the set screw 44 regardless of the orientation of the spindle 42 in the handle 38. In the event that the spindle 42 is improperly positioned in the handle opening, the first leg 58 of the first and second spindle member 48, 50 extends outwardly, preventing the spindle 42 from being improperly installed in the handle 38 and door member 22. Further, in the event that the first and second spindle members 48, 50 are improperly installed such that the base 56 of one member confronts the pillars 62, 64 of the other member, the extending first legs and first pillars prevent the first and second member from mounting to form the spindle 42. In these improper configurations, the outer dimensions of the spindle members 48, 50 will exceed the predetermined outer dimension of a properly configured spindle 42. In such case, the spindle 42 in an improper configuration will not fit into the opening 40 of the door handle 38. In a proper confronting position, the first and second pillars 62, 64 of the first and second members 48, 50 cooperatively form a bow 86. When the spindle 42 is inserted in the opening 26 of the door member 22, the bow 86 provides a secure interference fit with the opening 26.
It will be understood that the invention may be embodied in other specific forms without departing from the spirit or central characteristics thereof. The present embodiments, therefore, are to be considered in all respects as illustrative and not restrictive, and the invention is not to be limited to the details given herein.
This application claims priority from and claims the benefit of U.S. Provisional Application No. 60/409,784, filed on Sep. 11, 2002, which application is incorporated herein by reference and made a part hereof.
Number | Name | Date | Kind |
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4883 | Livingston | Dec 1846 | A |
186018 | Burgess | Jan 1877 | A |
472725 | Smith | Apr 1892 | A |
506388 | Clark | Oct 1893 | A |
3954292 | Johnson | May 1976 | A |
5906403 | Bestler et al. | May 1999 | A |
Number | Date | Country | |
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20040113442 A1 | Jun 2004 | US |
Number | Date | Country | |
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60409784 | Sep 2002 | US |