This patent application is related to co-assigned and co-pending U.S. PROVISIONAL patent application Ser. No. 62/838,911, filed Apr. 25, 2019; the entirety of which is incorporated herein by reference.
This invention disclosure generally relates to a door which pivots between closed and open positions about a generally vertical axis and, more specifically, to a drive mechanism for moving a door from a closed position to an open position about a generally vertical axis.
Doors which swing about a vertical pivot axis as they move between closed and open positions are commonly used as an entryway door in any of a variety of different locations. In some situations, a door is known to pivotally move from a closed position toward an open position about an axis disposed toward a left side of the door. As such, these doors are commonly referred to as a “left-handed” door. In other situations, a door is known to pivotally move from a closed position toward an open position about an axis disposed toward a right side of the door. As such, these doors are commonly referred to as “right-handed” doors.
In some situations, and for a variety of different reasons, it is preferred for the door to be manually moved from a closed position to an open position. In many situations, however, and to ease accessability into a store, room or other suitable enclosure, such doors are operated between closed and open positions by a powered driver having a positively driven output shaft. The prior art has not and does not disclose a powered driver which can be selectively conditioned to allow either manual or powered operation of a door which pivots about a vertical axis between closed and open positions.
Thus, there is both a need and continuing desire for a drive mechanism which can be selectively conditioned to allow a door which pivots about a generally vertical axis to be moved between closed and open positions either manually or positively driven.
In view of the above, and in accordance with one aspect of this invention disclosure, there is provided a drive mechanism for imparting movements to a door pivotal about a generally vertical axis between closed and open positions. The drive mechanism includes a frame or base for mounting the drive mechanism to a surface adjacent an axis about which the door pivots. A power source is mounted on the frame or base for positively driving an output shaft of the drive mechanism in one rotational direction. The power source includes a drive shaft rotatable about a fixed axis. The output shaft is mounted for rotation about a fixed axis disposed generally parallel to the fixed axis of the power source drive shaft. A drive train including a plurality of intermeshing gear sets is arranged between the power source drive shaft and the output shaft of the drive mechanism. At least one gear set in the drive train includes a manually operated clutch mechanism selectively operable in either an engaged condition or a disengaged condition. When in a disengaged condition, the clutch mechanism serves to operably connect and transfer rotational movements of the power source to the output shaft of the drive mechanism so as to forcibly open the door. When operated in an engaged condition, the clutch mechanism operably disconnects the power source and at least one gear set from the drive train thereby minimizing the manual effort required to open the door.
Preferably, the drive mechanism further includes a one-way clutch mechanism operably associated with one of the gear sets for restricting rotational movements of those gear sets upstream of that gear set having the one-way clutch operationally associated therewith. In a preferred form, the drive mechanism furthermore includes a torsion spring for forcibly rotating the gear sets in a direction opposite from the direction the drive power source rotates the gear sets.
Each gear set in the drive train preferably includes at least two gears arranged in intermeshing relationship with at least two other gears of an adjacent gear set. The relative diameters of the intermeshing gears on adjacent gear sets is such that a predetermined drive ratio is established between the power source drive shaft and the output shaft of the drive mechanism.
In one embodiment, the drive mechanism also includes an assembly for limiting the rotation of the output shaft of the drive mechanism. The assembly for limiting the rotation of the output shaft of the drive mechanism preferably includes a member which is rotatable with and follows one of the gears in the gear train and a stop connected to and carried by the frame or base.
According to another aspect of this invention disclosure, there is provided a drive mechanism for imparting opening movements to a door pivotal about a generally vertical axis. In this embodiment, the drive mechanism includes a frame or base for mounting the drive mechanism to a generally flat surface adjacent an axis about which the door pivots. A power source is mounted on the frame or base for positively driving an output shaft of the drive mechanism in a rotational direction suitable to open to the door. The power source includes a drive shaft rotatable about a fixed axis. The output shaft of the drive mechanism is mounted on and carried by the frame or base for rotation about a fixed axis disposed generally parallel to the fixed axis of power source drive shaft. A drive train including multiple intermeshing gear sets is arranged between the power source and the output shaft of the drive mechanism. In this embodiment, that gear set arranged adjacent the power source drive shaft includes a clutch mechanism selectively operable in either an engaged condition or a disengaged condition. When the clutch mechanism is in a disengaged condition, the clutch mechanism operably connects and transfers rotational movements of the power source drive shaft to the output shaft drive mechanism so as to positively open the door from a closed position. When the clutch mechanism is operable in an engaged condition, the clutch mechanism operationally disconnects the power source and the first gear set from the drive train thereby minimizing the manual effort required to manually open the door.
According to this aspect of the invention disclosure, the drive mechanism furthermore preferably includes a one-way clutch mechanism operably associated with one of the gear sets for restricting rotational movements of the gear set upstream of that gear set having the one-way clutch operatably associated therewith. In one form, the drive mechanism also includes a torsion spring for forcibly rotating the gear sets in a direction opposite from the direction the drive power source rotates the gear sets. In a preferred embodiment, the torsion spring is arranged in operable association with the output shaft of the drive mechanism.
Preferably, each gear set in the drive train includes at least two gears arranged in intermeshing relationship with at least two other gears of an adjacent gear se. The relative diameters of the intermeshing gears on adjacent gear sets is such that a predetermined drive ratio is established between the motor drive shaft and the output shaft of the drive mechanism.
The drive mechanism according to this aspect of the invention disclosure furthermore preferably includes an assembly for limiting the rotation of the output shaft of the drive mechanism. Such assembly for limiting the rotation of said output shaft of the drive mechanism preferably includes a member which rotates with and follows one of the gears and a stop carried by and connected to the frame or base.
According to another aspect of this invention disclosure, there is provided a drive mechanism for imparting opening movements to either a left-handed or right-handed door pivotal about a generally vertical axis. The drive mechanism includes a frame or base for mounting said drive mechanism to a generally flat surface adjacent an axis about which said door pivots. A drive power source is mounted on the frame or base. The drive power source includes a drive shaft rotatable about a fixed axis. An output shaft is mounted on and carried by the frame for rotation suitable to open to the door. The output shaft of the drive mechanism is mounted for rotation about a fixed axis disposed generally parallel to the fixed axis of the power source drive shaft. According to this aspect of the invention disclosure, opposed ends of the output shaft extend beyond opposed sides of the frame or base so as to allow the frame to be mounted in various orientations while maintaining access to the output shaft whereby allowing the drive mechanism to be used in operable combination with either left-handed or right-handed pivotal doors. A drive train, including multiple intermeshing gear sets, is arranged between the power source drive shaft and the output shaft of the drive mechanism. According to this aspect of the invention disclosure, the gear set arranged adjacent the power source drive shaft includes a clutch mechanism selectively operable in either an engaged condition or a disengaged condition. When in the disengaged condition, the clutch operably connects and transfers rotational movements of the power source drive shaft to the output shaft of the drive mechanism so as to positively open the door. When the clutch mechanism is in an engaged condition, the clutch mechanism effectively disconnects the power source and one of the gear sets in the drive train from output shaft of the drive mechanism to minimize manual force required to open the door.
In a preferred form, the drive mechanism further includes a one-way clutch mechanism operably associated with one of the gear sets so as to restrict rotational movements of the gear set upstream of the gear set having the one-way clutch operationally associated therewith. Preferably, the drive mechanism furthermore includes a torsion spring for forcibly rotating the gear sets in a direction opposite from the direction the drive power source rotates the gear sets. The torsion spring is preferably arranged in operable association with the output shaft of the drive mechanism.
Preferably, each gear set of the drive train includes at least two gears arranged in intermeshing relationship with at least two other gear, of an adjacent gear set. The relative diameters of the intermeshing gears on adjacent gear sets is such that a predetermined drive ratio is established by the drive train between the power source drive shaft and the output shaft of the drive mechanism.
In one form, the drive mechanism also includes an assembly for limiting the rotation of the output shaft of the drive mechanism. Preferably, the drive mechanism furthermore includes a cover extending about and enclosing the base or frame, the power source and the intermeshing gear sets while permitting access to opposed ends of the output shaft.
While this invention disclosure is susceptible of embodiment in multiple forms, there is shown in the drawings and will hereinafter be described a preferred embodiment, with the understanding the present disclosure is to be considered as setting forth an exemplification of the disclosure which is not intended to limit the disclosure to the specific embodiment illustrated and described.
Referring now to the drawings, wherein like reference numerals indicate like parts throughout the several views, there is shown in
In
In the embodiment illustrated by way of example in 1G. 1, the door 10 swings or pivots about axis 12 disposed toward a right side or edge of the door 10. As such, in the embodiment illustrated by way of example in
A door operating system, generally identified by reference numeral 30, is operably connected to the door 10. The operating system 30 serves to move the door 10 about axis 12 between closed and open positions. In the arrangement illustrated, the door operating system 30 includes a drive mechanism 32 (
As illustrated in
As illustrated in
Drive mechanism 32 further includes an output shaft 50 which is suitably journalled by frame 32 for rotation about a fixed axis 56 disposed in spaced relation from the fixed axis 46 of the power source 40. Notably, the fixed axis 46 of the drive shaft 44 of power source 40 and the fixed axis 56 of the output shaft 50 extend generally parallel relative to each other. In a preferred embodiment, free and opposed ends of the drive shaft 50 extend beyond the housing 36 to readily allow access thereto.
A drive train including plurality of intermeshing gear sets 60, 70, 80 and 90 is arranged between the drive shaft 44 of the power source 40 and the output shaft 50 of drive mechanism 32. Applicants appreciate and understand the arrangement of the drive train and the plurality of intermeshing gear sets 60, 70, 80 and 90 for transferring rotation between the power source 40 and output shaft 50 can be different from that illustrated for exemplary purposes without detracting or departing from the spirit and scope of this invention disclosure. Moreover, Applicants appreciate a greater or lesser number of intermeshing gear sets from that illustrated by way of example in
In the embodiment further illustrated by way of example in
In the embodiment illustrated by way of example in
In the embodiment shown by way of example in
In the embodiment illustrated by way of example in
The drive mechanism 32 of this invention disclosure is uniquely designed to allow the door 10 (
Clutch mechanism 100 is selectively operable in either an engaged condition or a disengaged condition. In a disengaged condition, clutch mechanism 100 operably connects and transfers rotational movements of the drive shaft 44 of drive motor 42 to the output shaft 50 of drive mechanism 32 so as to drive or propel the door 10 (
As will be appreciated by those skilled in the art, clutch mechanism 100 can take any of a myriad of different designs and configurations without detracting or departing from the broad spirit and novel scope of the present invention. In the embodiment illustrated by way of example in
While being rigidly joined to and movable with the hub portion 74d of gear 74, the preferable design of each arm segment or portion 75, 75′ advantageously permits a degree of flexure to a pair of preferably semicircular and divided clamping jaws 75a and 75b carried at and connected to the distal ends of arm segments or portions 75 and 75′. As shown in
In the embodiment illustrated by way of example in
Moreover, clutch mechanism 100 preferably includes a pair of fasteners 75d and 75e. To selectively condition the clutch mechanism 100 in an engaged condition, the fasteners 75d and 75e are simply tightened whereby moving the clamping jaws 75a and 75b to selectively apply a clamping force about the outer diameter of shaft 76 (
As will be further understood, when clutch mechanism 100 is selectively operated in a non-engaged condition, the fasteners 75d and 75e are selectively loosened and the clamping force of the clamping jaws 75a and 75b on shaft 76 is released through the flexure of the arm segments or portions 75 and 75′. That is, in the non-engaged condition, shaft 76 is allowed to freely turn and rotate relative to gear 74. As such, and when the clutch mechanism 100 is selectively operated in a non-engaged or disengaged condition no rotational movements are transferred between gear set 60 and gear set 70.
Preferably, the drive mechanism 32 of the present invention disclosure furthermore includes a one-way clutch mechanism 110 operably associated with gear 74 of gear set 70 for restricting rotational movement of the gear set 60 disposed upstream of gear set 70 when clutch mechanism 100 is selectively operated in a non-engaged or disengaged condition. The one-way clutch mechanism 110 is preferably of a conventional design and can be a KOYO shell type sold by JTETK Corporation of Arlington Heights, Ill. under Model No. RCB-101416.
Returning to
In a preferred embodiment illustrated in
In the embodiment illustrated for exemplary purposes in
As the drive mechanism 32 is operated to move the door 10 (
In the embodiment shown by way of example in
Thus, it will be observed that numerous modifications and variations can be made and effected without departing or detracting from the true spirit and novel concept of this invention disclosure. Moreover, it will be appreciated, the present disclosure is intended to set forth an exemplification which is not intended to limit the disclosure to the specific embodiment illustrated and described. Rather, this disclosure is intended to cover by the appended claims all such modifications and variations as fall within the spirit and scope of the claims.
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Number | Date | Country | |
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20200340283 A1 | Oct 2020 | US |
Number | Date | Country | |
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62838911 | Apr 2019 | US |