Hydraulically operated overhead tilt-up door with stabilizer

Abstract

The door system of the present invention includes a mounting frame assembly and a tilt-up door pivotally and slidably mounted within the mounting frame assembly. The door system is installed in a door rough opening as an integral unit, simplifying installation. At least one hydraulic cylinder is utilized to actuate the door between its open and closed positions. A stabilizer including a door component secured to the tilt-up door and a door component secured to the frame assembly are used to stabilize the door when it is in its open position.

Claims

1. A tilt up door and mounting frame assembly for an opening in a building, comprising: the mounting frame assembly mountable within the opening of the building, the mounting frame assembly including a top horizontal frame member, a first vertical frame member having a top end and a bottom end and secured by the top end to a first end of the horizontal frame member, a second vertical frame member having a top end and a bottom end and secured by the top end of the second vertical frame member to a second end of the horizontal frame member, door panel axle vertical guides mounted within each vertical frame member, a slot defined in the top end of at least one vertical frame member for pivotally and slidably receiving a pin carried at an upper end of a control arm, a stabilizer frame component secured near the top end of at least one vertical frame member and a notch defined at the top end of at least one vertical frame member for receiving a lock tab; a single panel door having an upper edge, side edges, a vertical center of gravity, horizontally aligned axles extending laterally from each side edge of the door at or above the vertical center of gravity of the door defining a door pivot axis, each axle pivotally and slidably engaging a corresponding door panel axle vertical guide, a stabilizer door component secured to a side edge of the door on the same side as the vertical frame member with the stabilizer frame component, and the lock tab secured to the upper edge of the single panel door for engaging the notch defined at the top end of at least one vertical frame member; the control arm having a lower end with a lower end pivot pin and an upper end with an upper end pivot pin, the control arm lower end pivot pin being pivotally secured to the single panel door and the control arm upper end pivot pin being pivotally and slidably secured within the slot defined in the top end of a vertical frame member; at least one linearly extendable actuator having an upper end and a lower end, pivotally mounted by the upper end of the linearly extendable actuator to one of the horizontally aligned axles and secured by the lower end of the linearly extendable actuator to the mounting frame assembly; a linearly extendable actuator control assembly in communication with the linearly extendable actuator to control extension and retraction of the linearly extendable actuator to open and close the door; wherein, when the door is moved from a closed position to an open position, the control arm on the mounting frame assembly permits limited vertical movement of the door to release the lock tab from the vertical frame member notch so the door can rotate to said open position, and when the door is moved from said open position to said closed position, the lock tab engages the vertical frame member notch as the door is closed to prevent the door from rotating, wherein at least one vertical frame member has a front face and a rear face, the front face defines a first plane and the rear face defines a second plane, and the slot extends longitudinally between the first plane and the second plane, and wherein when the door is moved from the closed position to the open position, the door rises vertically before starting inward rotation into the building; and wherein, when the door is in said open position, the stabilizer frame component and stabilizer door component meet in mating relation to stabilize the door.

2. The tilt up door and mounting frame assembly of claim 1 wherein the stabilizer door component and stabilizer frame component include engagement surfaces that engage each other when the door is in said open position.

3. The tilt up door and mounting frame assembly of claim 1 wherein the stabilizer door component and stabilizer frame component have an arcuate configuration and include engagement surfaces that engage each other when the door is in said open position.

4. The tilt up door and mounting frame assembly of claim 1 wherein the door includes a front surface, the stabilizer door component includes one or more engagement surfaces that face a same direction as the door front surface, the stabilizer frame component includes one or more engagement surfaces that face downward, and the engagement surfaces of the stabilizer frame component and stabilizer door component engage each other when the door is in said open position.

5. The tilt up door and mounting frame assembly of claim 1 wherein the stabilizer door component has an arcuate configuration and is secured around one of the horizontally aligned axles extending laterally from a side edge of the door a door axle for movement between the first plane and second plane defined by the front and rear surfaces of the vertical frame member.

6. The tilt up door and mounting frame assembly of claim 1 wherein the stabilizer door component has an arcuate configuration and at least one engagement surface and is secured around one of the horizontally axles extending laterally from a side edge of the door for movement between the first plane and second plane defined by the front and rear surfaces of the vertical frame member, the stabilizer frame component is positioned between the first plane and second plane defined by the front and rear surfaces of the vertical frame member and includes at least one engagement surface, and in the door open position, the engagement surfaces of the stabilizer frame component and stabilizer door component engage each other.

7. The tilt up door and mounting frame assembly of claim 1 wherein the door includes a stabilizer door component on each side edge of the door and a stabilizer frame component near the top end of each vertical frame member.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will be better understood when consideration is given to the following detailed description thereof. Such description makes reference to the annexed drawings wherein:

(2) FIG. 1 is a front view of one preferred embodiment of the door assembly of the present invention;

(3) FIG. 1A is a view of FIG. 1 taken along line A-A in FIG. 1;

(4) FIG. 1B is a view of FIG. 1 taken along line B-B in FIG. 1;

(5) FIG. 1C is a side view of the door assembly of the present invention with the door in its open position;

(6) FIG. 2A is a side view of the door assembly of the present invention with the door in its closed position;

(7) FIG. 2B is a side view of the door assembly of the present invention with the door in its open position;

(8) FIG. 3A is a perspective view of a side of the door assembly of the present invention that faces into a building, with the door in its closed position with parts of first and second vertical frame members suppressed for clarity;

(9) FIG. 3B is a perspective view of a side of the door assembly of the present invention that faces into a building, with the door in its partially open position with parts of first and second vertical frame members suppressed for clarity;

(10) FIG. 3C is a perspective view of a side of the door assembly of the present invention that faces into a building, with the door in its open position with parts of first and second vertical frame members suppressed for clarity;

(11) FIG. 4A is a perspective view of a side of the door assembly of the present invention that faces to the outside of a building, with the door in its closed position;

(12) FIG. 4B is a perspective view of a side of the door assembly of the present invention that faces to the outside of a building, with the door in its open position;

(13) FIG. 5A is a perspective view of a side of the door assembly of the present invention that faces into a building, with the door in its closed position;

(14) FIG. 5B is an exploded view of a portion of FIG. 5A;

(15) FIG. 5C is a perspective view of a side of the door assembly of the present invention that faces to the inside of a building, with the door in its open position;

(16) FIG. 6 is a perspective view of one portion of the stabilizer of the present invention;

(17) FIG. 7A is a side view of the present invention illustrating the position of the stabilizer components when the door is in its closed position;

(18) FIG. 7B is a side view of the present invention illustrating the position of the stabilizer components when the door is in its open position;

(19) FIG. 8 as a partial view of a vertical frame member, with a portion removed, to display a door axle and a door component of the stabilizer secured around a door axle;

(20) FIG. 9 as a partial view of a vertical frame member, with a portion removed, to display a frame component of the stabilizer secured within and at the top of a vertical frame member; and

(21) FIG. 10 as a partial view of a vertical frame member, with a portion removed, to display the door and frame components of the stabilizer in mating relation when the door is in its open position.

DESCRIPTION OF EXAMPLE EMBODIMENTS

(22) Although the present disclosure is described in connection with exemplary embodiments, the present disclosure is not intended to be limited to the specific forms set forth herein. Other embodiments not disclosed or directly discussed are also considered to be within the scope and spirit of the invention. It is understood that various omissions and substitutions of equivalents are contemplated as circumstances may suggest or render expedient, but these are intended to cover the application or implementation without departing from the spirit or scope of the claims of the present disclosure. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.

(23) The present invention, as shown at 10 in FIG. 1, is a hydraulically operated overhead tilt up door assembly for an external or internal building door and has application for residential, commercial, industrial or industrial structures. In one preferred embodiment, the hydraulic operated door assembly includes a three-sided mounting frame assembly 20 (with an optional fourth side), a single panel rigid door 30 (illustrated in a typical rectangular shape, although other shapes are anticipated by the present invention) and at least one hydraulic cylinder with a retractable piston (of a type known in the prior art), screw or other type of actuator 40 for moving the door 30 between an open and closed position. Door 30 may include vertical support members 46 and horizontal support members 47 for strengthening the door.

(24) The door is preinstalled on the mounting frame assembly. To install the door, the mounting frame assembly 20 is positioned within the building rough opening and secured to upper and side door jambs, and with the optional fourth side, the building floor.

(25) For exemplary purposes only, and not by way of limitation, the door assembly 10 will be described using two hydraulic cylinders, even though the door system can be operated with a single hydraulic cylinder. Further, other components and features, such as alarms, sensors, windows and doors-within-a-door can also be used with the invention and should be considered to be within the spirit and scope of the invention.

(26) Referring to FIG. 1, the complete mounting frame assembly 20 includes a top horizontal frame member 22 and first and second vertical frame members 24 and 26. A top end 24T of first vertical frame member 24 is secured to a first end of the top horizontal frame member 22 and a top end 26T of second vertical frame member 26 is secured to a second end of the horizontal frame member, opposite the first end of the horizontal frame member.

(27) When installed in a rough opening 50 of a building or structure 52, as shown in FIG. 4B, the top horizontal frame member 22 is secured to a top member of the rough opening 50 of the building. The first and second vertical frame members 24 and 26 are secured to rough opening side jambs 56 and 58, respectively. An optional bottom horizontal member 45 may be secured at a first end to the bottom end of the first vertical frame member 24 and at a second end to the bottom end of the second vertical frame member 26 and to a floor 59 of the building 52 (3C).

(28) One skilled in the art will understand that the complete mounting frame 20 can be secured to the structure or ground by numerous techniques and devices such that those suggested herein which should not be considered limiting. One skilled in the art will also appreciate that the mounting frame 20 can be made from any type of material including steel plating that is either welded together or coupled together with any type of fastener known in the prior art. The mounting frame or door support 20 can also be manufactured from other light, generally rigid, materials such as aluminum or other composite materials.

(29) While the horizontal and vertical mounting frame mounting members serve a structural purpose, as discussed infra, the vertical mounting frame members also house the door track guides, hydraulic cylinder and cylinder hoses to create a very clean appearance and few exposed moving parts.

(30) Door panel axle vertical guides 60 are located in vertical frame members 24 and 26 and guide movement of the door between its opened and closed positions. On opposite side edges 31 and 32 of door 30, located above the vertical center of gravity of the door, pivot axles 38 extend laterally outward from each side of the door to pivotally and slidably engage door panel axle vertical guides 60. Axles 38 are mounted to keep the upper and lower portions of the door as balanced as possible, but with the lower portion (below the center of gravity of the door) slightly heavier than the top portion of the door. In one preferred embodiment, the axles may be located anywhere from zero to 24 inches above the vertical (weight) centerline C-C of the door 30. In another preferred embodiment, the axles 38 are positioned within two inches above the vertical (weight) centerline C-C of the door 30 to keep the door as balanced as possible.

(31) The axles 38 define a pivot axis D-D for the door. The axles 38 are positioned to keep the bottom end of the door 30 (below the horizontal pivot axis D-D) heavier than the portion of the door 30 above pivot axis D-D to prevent the door panel 30 from tipping back and forth when being raised or closed.

(32) Also mounted within each vertical mounting frame member is a hydraulic cylinder. A first end of the hydraulic cylinder includes a clevis 100 which pivotally engages a corresponding door axle. A second end of the hydraulic cylinder is either pivotally or fixedly secured to the bottom of the vertical door frame members. Because the hydraulic cylinders are secured to the mounting frame and not the building, the load forces created from opening and closing the door are better distributed throughout the mounting frame, resulting in less wear and tear on the building structure. (An alternate to a hydraulic cylinder in the present invention could be a screw, electric worm drive, electric actuator or cable system that performs the same function in the same manner.)

(33) A hydraulic power unit 90 drives the hydraulic cylinders. In one preferred embodiment, the hydraulic cylinders will operate on a variable frequency drive (VFD), which involves varying the speed of the motor/pump 90 to vary the speed of the door opening and closing. The speeds implemented are related to the position of the control arm 150. In one preferred embodiment, the door is opened at a slower speed at the point of close and initial opening and is operated at higher speeds throughout the remainder of the travel of the door. Variable speeds create a smoother transition from one position of the door to the next (open to close to open).

(34) By way of illustration, in one preferred embodiment, an 8 foot door is opened in 25-30 seconds. The hydraulic cylinder extends at approximately 2 inches in 4 seconds initially. Thereafter, the speed is increased to approximately double its initial speed until just before full open, when it is again slowed to 2 inches in 4 seconds. The same speeds would happen at the same points when the door is closed.

(35) Also secured to and extending laterally outward from door side edges 31 and 32 (FIG. 1A), anywhere from 12 to 120 inches below the top of door 30, are lower pivot barrels 34. Each pivot barrel 34 is intended to pivotally engage a first end of a control arm 150. The first end of the control arm 150 includes, in one embodiment, a pin 153 for pivotally engaging the pivot barrel, defining a lower pivot axis for control arm 150.

(36) As shown in FIG. 5B, the vertical frame members 24 and 26 include a slot 19 for pivotally and slidably receiving upper pin 155 located at the top end of control arm 150. Upper pin 155 defines an upper pivot axis of the control arm 150. The positioning of the control arm upper pivot axis and lower pivot axis and door axles 38 determines the curvature of rotation of the top of the door as the door is being raised or closed. Proper positioning of the location of the axles 38 and lower and upper pivot axes will prevent the top edge 159 of door 30 from extending above a horizontal plane 162 defined by the bottom of top member 54 of the rough opening 50. Further, the door can open to a near horizontal position.

(37) As shown in FIG. 5B, an optional spring 142 may be utilized to apply upward pressure on the control arm upper pin 155, preventing it from dropping in the slot when the door is in an open or near open orientation.

(38) Referring to FIG. 1B, line V-V is a vertical line running through the control arm upper pivot axis and line F-F is a line extending through the control arm upper pivot axis and lower pivot axis. In one preferred embodiment, the angle 158 formed by these two lines is ideally between 0 and 20 degrees. In another preferred embodiment, the angle is about 6. At these angles, the door top will not extend above the horizontal plane 162 when being opened or closed.

(39) Referring to FIG. 1C, the line H-H is a horizontal line running through the control arm upper pivot axis and line E-E is a line extending through the control arm upper pivot axis and lower pivot axis. In one preferred embodiment, the angle formed by these two lines H-H and E-E is ideally between 0 and 20 degrees.

(40) Referring to FIGS. 2A and 2B, the arc defined by the top edge 159 of the door 30, when being opened or closed, is reflected at 160. As illustrated, the top of the door does not break the horizontal plane defined by the bottom of top member 54 of the rough opening 50. FIG. 2B illustrates the position of the door 30 in its open position, substantially horizontal, with the hydraulic cylinder fully extended.

(41) At the top of each vertical mounting frame member is a notch 17 for receiving an upper lock tab 15 secured to the top door panel horizontal member. When the door is in its closed position, as shown in FIG. 5B, lock tab 15 sits within notch 17 to prevent the door 30 from tilting forward or backward due to wind or manual force.

(42) In operation, from a closed position, the door 30 rises vertically to 1 before starting its inward rotation into the building. This is made possible by the slot 19. The control arm 150 is allowed to move upward for the distance of the slot, before engaging the upper pin 155, which then initiates rotation of the door.

(43) The present invention eliminates the need for creating headroom above the rough opening to accommodate opening and closing of the door and further minimizes the amount of space taken up in the rough opening by the door when in an open position. Further, the amount of door extending forward of the door opening is minimized, minimizing the effect of wind on the door, which reduces the structure required to support the door. Nevertheless, wind remains a factor with any single panel door when in their open position.

(44) The present invention includes a stabilizer to keep the door stabilized when in the open position to further address wind conditions. The stabilizer consists of two parts, a door component 210 welded or otherwise secured to the door and a frame component 220 welded or otherwise secured within and at the top of a vertical frame member.

(45) In one preferred embodiment, the door and frame component have similar arcuate configurations so the door component can be secured around a door axle 38 and the frame component can be secured within and at the top of a vertical door frame membersee FIG. 6. Each component defines an engagement surface 230 that engage each other when the door is in an open position, as shown in FIGS. 7B and 10, to stabilize the door in windy conditions.

(46) The door component is secured with the engagement surface 230 facing laterally; the frame component is secured with the engagement surface facing downward. When the door is in an open position, the door rotates 90 degrees so the engagement surfaces of each component will mate with each other.

(47) The emphasis of the embodiment discussed above is to keep the door and door components largely secured within an opening of the building to minimize loss of interior building space, to keep the load distribution within the door frame to minimize wear and tear on the building and to provide a door that is capable of being opened without extending above the top frame member of the door frame assembly. However, other configurations of the stabilizer components are anticipated by the present invention, including positioning the stabilizer door and frame components in different locations, components with different configurations, extending the length or increasing the size of the components and use of the components on door systems other than single panel tilt-up doors.

(48) The invention may be embodied in these and other specific forms without departing from the spirit or attributes thereof, and it is therefore desired that the embodiments be considered in all respects as illustrative and not restrictive, reference being made to the appended claims rather than to the foregoing description to indicate the scope of the invention.