1. Field of the Invention
The present invention relates to an adjustable door stop system that may be utilized with hinge mounted doors and existing hinge and hinge pins in order to stop movement of the door from moving past a selected position. In particular, the present invention relates to an adjustable door stop system that may be easily adjusted to various positions and will not mar or damage the door and will not mar or damage an adjacent wall or woodwork.
2. Prior Art
Various types of door stops are known to prevent opening doors from causing damage to doors, to door knobs or to adjacent walls or doorways.
While some existing door stops require special hinge leaves, the present invention is directed to a door stop system and a method that may be utilized and added to almost any standard, existing, hinge mounted door.
One known popular type of door stop is held in place by a hinge pin and includes a padded, adjustable post that rests against the doorway on one side and a padded post that rest against the door on the other side. While this functions adequately for its intended purpose, continual pressure by the post against a hollow core door will often result in damage to the door.
In addition, Applicant's prior adjustable door stop, shown and disclosed in U.S. Pat. No. 4,998,941 entitled “Adjustable Door Stop,” addresses and solves this problem. Applicant's prior door stop provides an adjustable door stop that will not impact against the door at all and will therefore avoid any damage to the door.
Applicant's prior adjustable door stop system, shown and disclosed in U.S. Pat. No. 7,197,791 entitled “Adjustable Door Stop System” provides a further adjustable door stop system that may be utilized to stop movement of the door at a selected position.
The present invention is directed to a further adjustable door stop system. The present invention provides yet a further solution to address the forgoing problems.
Accordingly, a principal object and purpose of the present invention is to provide an adjustable door stop system that will neither mar nor damage a doorway or a wall adjacent to a doorway.
It is a further object and purpose to the present invention to provide an adjustable door stop system that may be utilized with a wide variety of hinge mounted doors including a wide variety of existing hinges and existing hinge pins.
It is further object and purpose of the present invention to provide an adjustable door stop system that may be readily adapted to new construction as well as to existing hinge mounted doors.
It is a further object and purpose to the present invention to provide an adjustable door stop system where hinge leaves are prevented from axial movement beyond a desired amount.
It is a further object and purpose of the present invention to provide an adjustable door stop system that interfaces and operates with the hinges connected to the door and to the doorway and will not touch or interface with the door or the doorway at all.
It is a further object and purpose of the present invention to provide an adjustable door stop system that mar be readily and quickly adjusted to vary the permissible opening of the door with respect to the doorway.
The present invention is directed to an adjustable door stop system. The system is used with a hinge pin with a cylindrical barrel having an axis so that it pair of hinge leaves rotate around the axis.
The adjustable door stop system includes a movement controlled cylinder having, a first finger which extends radially and axially. The movement control cylinder also includes a cylindrical portion substantially parallel to the axis of the hinge pin. Additionally, the movement control cylinder includes a axial opening to receive the hinge pin therethrough.
A movement control cap includes a second finger extending radially and axially. The movement control cap also includes a cylindrical portion substantially parallel to the axis of the hinge pin. The cylindrical portion includes an axial opening to receive the hinge pin therethrough.
A plurality of teeth extend outward from the outer surface of the cylindrical portion of the movement control cylinder. A plurality of teeth extend radially inward from the inside surface of the cylindrical portion of the movement control cap. When the movement control cylinder and the movement control cap are engaged with each other, the movement control cap and the movement control cylinder are radially fixed or stationary with respect to each other.
When the door begins to open so that the accompanying hinge leaf moves rotationally, the hinge leaf will continue to move rotationally until it engages the second finger of the movement control cap. Once the other hinge leaf, connected to the doorway, engages the first finger of the movement control cylinder, the movement of the door will be arrested and further movement will be prohibited.
The embodiments discussed herein are merely illustrative of specific manners in which to make and use the invention and are not to be interpreted as limiting the scope of the instant invention.
While the invention has been described with a certain degree of particularity, it is to be noted that many modifications may be made in the details of the invention's construction and the arrangement of its components without departing from the spirit and scope of this disclosure. It is understood that the invention is not limited to the embodiments set forth herein for purposes of exemplification.
One hinge leaf 12 would be connected to a door 14 in a known manner, such as with fasteners. Another hinge leaf 16 would be connected to a doorway 18 in a manner, such as with fasteners. The present invention may be employed with a wide variety of doors and doorways.
The adjustable door stop system includes a hinge pin 22 with a cylindrical barrel having an axis (illustrated by dashed lines 24 in
The hinge pin cap 30 has a first portion 32 extending radially from the top end of the hinge pin. Accordingly, the first portion 32 is perpendicular to the axis 24 of the hinge pin. The hinge pin cap 30 also includes a second cylindrical portion extending from the first portion 32 parallel to the axis of the hinge pin 22. The second portion does not completely encircle the hinge pin 22 so that the edges form shoulders.
A control cap 40 includes a central opening to receive the hinge pin 22 therethrough. The control cap 40 also includes a first portion radially extending from the central opening and a second portion extending cylindrically from the first portion wherein the second portion is substantially parallel to the axis of the hinge pin 22. The second portion does not completely encircle the hinge pin 22 so that the edges form shoulders.
The diameter of the second portion of the hinge pin cap 30 is slightly larger than the diameter of the second portion of the control cap 40.
A mechanism is provided to prevent movement of the hinge pin cap 30 with respect to the control cap 40. A plurality of teeth on the inside surface of the hinge pin cap 30 second cylindrical portion are provided. A plurality of teeth are also provided on the exterior surface of the control cap 40 cylindrical portion so that the teeth engage and mate with each other.
The hinge pin cap 30 and the control cap 40 operate together to stop and arrest movement of the door 14 at a desired, selected position prior to either the door or the adjacent wall or doorway being marred.
As seen in
When the door begins to open so that the hinge leaf 12 moves in the direction shown by arrow 24 in
It will be appreciated that in an alternate arrangement (not shown), the control cap 40 would engage the hinge leaf 16 connected to the doorway 18 while the hinge pin cap 32 would engage the hinge leaf 12 connected to the door 14.
Returning to a consideration of
A plurality of slots generally parallel to the axis 24 of the hinge pin 22 are provided in the bottom end of the hinge pin 22 extending through. The bottom end accordingly, may be compressed to allow reduction of the enlarged portion during installation of the hinge pin 22 through the hinge leaves. The bottom end is resilient and, once installed, the radially enlarged portion returns to its normal diameter. Accordingly, the hinge pin 22 will resist being removed from the hinge leaves after installation.
In order to utilize the adjustable door stop system 10 of the present invention, the hinge pin 22 having the hinge pin cap 30 at the top thereof is inserted through the opening in the control cap 40 so that the barrel of the hinge pin 22 is received through the opening of the control cap 40. The teeth of the hinge pin cap will mate with the teeth of the control cap 40 in a selected position to allow the door 12 to open a desired distance.
The bottom end of the hinge pin 22 is then inserted through the hinge leaves 12 and 16.
One hinge leaf 52 would be connected to the door 54 while another hinge leaf 56 would be connected to a doorway 58.
As best seen in
A cylinder 64 extends axially upward from the top of the hinge pin 60 above the level of the first finger 70. The cylinder 64 has a plurality of teeth on the outside surface thereof.
A movement control cap 66 includes a cylindrical opening portion with a plurality of teeth on the inside surface of the cylindrical opening portion. The diameter of the cylindrical opening of the movement control cap 66 is slightly larger than the diameter of the cylinder 64 so that the teeth engage each other.
The movement control cap 66 also includes a second finger 68. The second finger 68 extends radially and also extends axially parallel to the axis of the hinge pin 60. A side of the second finger 68 will engage one of the hinges.
A mechanism is provided to prevent movement of the cylinder 64 with respect to the movement control cap 66 in order to prevent the opening of the door 54 past a desired position. The plurality of teeth on the outside surface of the cylinder 64 mate and engage with a plurality of teeth on the inside surface of the cylinder of the movement control cap 66.
As seen in
When the door begins (not shown) to open so that the hinge leaf 52 moves as shown by arrow 48 in
One hinge leaf 82 would be connected to the door 84 while another hinge leaf 86 would be connected to a doorway 88. It will be appreciated that the present invention may be used with various types of known hinges, various types of known hinge pins, various types of doors, and various types of doorways.
The movement control cylinder 95 includes a first finger 100 which extends radially and axially therefrom. The movement control cylinder 95 also includes a cylindrical portion 94 substantially parallel to the axis 92 of the hinge pin. Additionally, the movement control cylinder includes an axial opening to receive the hinge pin 90 therethrough. The hinge pin 90 may freely rotate within the cylindrical portion 94.
The movement control cap 98 includes a second finger 102 extending radially and axially therefrom. The movement control cap 98 also includes a cylindrical portion 96 substantially parallel to the axis 92 of the hinge pin. Additionally, the cylindrical portion includes an as opening to receive the hinge pin 90 therethough.
The cylindrical portion 94 of the movement control cylinder 95 is received in and engages the cylindrical portion of the movement control cap 98. In the present embodiment, a plurality of teeth extend outward from the outside surface of the cylindrical portion 94 of the movement control cylinder 95. A plurality of teeth extend radially inward from the cylindrical portion 96 of the movement control cap 98. When the movement control cylinder 95 and the movement control cap 98 are engaged with each other, the movement control cap 98 and movement control cylinder 95 are radially fixed or stationary with respect to each other.
Neither the movement control cylinder 95 nor the movement control cap 98 are fixed or secured to the hinge pin 90 or hinge leaves 82 and 86.
In
When the door 84 (not shown) begins to open so that the hinge leaf 82 moves rotationally as shown by the arrow 51 in
As can be observed from the foregoing, the permissible opening of the door may be adjusted by adjusting the engagement between the movement control cylinder 95 and the movement control cap 98.
It will be appreciated that the adjustable door stop system 80 shown in
In order the install the adjustable door stop system 80 of the present invention, the hinge pin 90 is inserted through the axial opening of the cylindrical portion 96 of the movement control cap 98. Thereafter, the hinge pin 90 is inserted through the axial opening of the cylindrical portion 94 of the movement control cylinder 95. The teeth of the cylindrical portion 96 are engaged with the teeth of the cylindrical portion 94 so that the first finger 100 and the second finger 102 are rotationally positioned with respect to each other. The hinge pin 90 is then inserted all the way through the hinge leaves 82 and 86.
In order to adjust the radial positioning, the reverse procedure is performed and the first finger 100 of the movement control cylinder is adjusted radially with respect to the second finger 102 of the movement control cap.
Whereas, the present invention has been described in relation to the drawings attached hereto, it should be understood that other and further modifications, apart from those shown or suggested herein, may be made within the spirit and scope of this invention.
This application is a continuation-in-part of the U.S. patent application Ser. No. 12/579,773 filed Oct. 15, 2009, entitled Adjustable Door Stop System.
Number | Date | Country | |
---|---|---|---|
Parent | 12579773 | Oct 2009 | US |
Child | 12890759 | US |