The present disclosure relates to improved systems and methods for hanging or standing shelving units for a number of applications including without limitation support units for building heating, ventilation, and air conditioning (“HVAC”) systems and components, as well as suspended shelving units for holding, for example, children's games and toys, closet organizers with hangers and shelves, adjustable pipe hangers with preset means to ensure proper drainage pitch, for storage space in a garage or workshop, storage shelves over a garage door, and as a hanging unit for audio/visual equipment.
Interior spaces of homes and other buildings are typically provided with areas for storage and storage solutions which are not adequate for the storage needed in the home or building. Hangers for mounting HVAC units, hanging pipes, and storing other items in a building are known in the prior art. More specifically, by way of example, U.S. PreGrant Publication No. 2007/0145222 to Rausch discloses a method and device for a hanging apparatus that is used to support ductwork, pipes, wiring, conduit and the like from support beams such as I-Joists.
U.S. Pat. No. 7,596,962 to Karamanos discloses, prior to installation into a HVAC system a fully-functional zone-control unit which also includes a pair of caps which seal the ends of the piping assemblies, and a pressure gauge for sensing pressurization of the piping assemblies and coil which the caps seal. A pressure gauge permits testing to insure that the piping assemblies and coil are leak free.
U.S. Pat. No. 7,261,256 to Pattie, et al. discloses a variable-duct support assembly for mounting a duct. The variable-duct support assembly includes rails having a groove which has a pair of support brackets for supporting ducts. The support brackets are coupled to one or more flexible bands for clamping the duct between the support brackets and the flexible bands.
U.S. Pat. No. 7,083,151 to Rapp discloses a laterally-reinforced duct saddle for hanging a length of horizontal flexible duct from a supporting structure. The duct saddle includes a generally flat, elongated blank adapted for bending around and receiving a portion of the flexible duct.
U.S. Pat. No. 6,866,579 to Pilger discloses a boot hanger mounting bracket assembly formed of a sturdy yet bendable material so that it can be configured and adjusted on-site. Once configured, the boot hanger mounting bracket assembly is secured to the building structure by securing a pair of boot hanger arms to the ceiling joists, wall studs or other support structure to provide a positive inexpensive way to mount the duct components.
U.S. Pat. No. 6,719,247 to Botting discloses a hanger for seating a flexible duct. The hanger has one end that can be attached to a support structure, such as a beam or joist, and a second end with a cradle for receiving a duct that can be freely seated in the cradle.
U.S. Pat. No. 5,741,030 to Moore, et al. discloses an air duct starting collar having integral clips used for installation in a planar surface of an air duct. A flange of the device permits variance in hole size, and roughness of the hole's edge.
In one aspect, an apparatus is provided for a hanging shelving unit having at least one arm adapted to be attached at its top end to a steel beam, wood rafter, wood joist, wood beam, or ceiling, a bar adapted to be slidably coupled to the arm having a first horizontally extending arm located at the bottom of the bar to form a J bar, clearance openings located in the arm and in the J bar for receiving fasteners for attaching the arm to the J bar to raise or lower the first horizontally extending arm to provide for storage at different heights, a first extension member removably coupled to the first vertically displaced horizontally extending arm, and wherein the first extension member has a length that provides for storage space of different widths and is adapted to be removably attached to a first vertically displaced horizontally extending arm on an opposing J bar.
In another aspect, an apparatus is provided for a standing shelving unit having at least one leg adapted to be attached at its bottom end to a steel beam, wood rafter, wood joist, or wood beam, a bar adapted to be slidably coupled to the leg having a first horizontally extending arm located at the top of the bar to form a L bar, clearance openings located in the leg and in the L bar for receiving fasteners for attaching the leg to the L bar to raise or lower the first horizontally extending arm to provide for storage at different heights, a first extension member removably coupled to the first vertically displaced horizontally extending arm, and wherein the first extension member has a length that provides for storage space of different widths and is adapted to be removably attached to a first vertically displaced horizontally extending arm on an opposing L bar.
In yet another aspect, a method for hanging the adjustable shelving unit is provided.
In a further aspect, a method for securing the standing adjustable shelving unit is provided.
One advantage of the present development resides in the versatility of the shelving unit which provides for a variety of widths and heights to provide a hanging or standing shelving unit that can be used for a number of applications including building heating, ventilation, and air conditioning (“HVAC”) systems, a shelving unit for holding children's games and toys, as a closet organizer with hangers and shelves, for storage space in a garage or workshop, storage shelves over a garage door, and as an audio/visual equipment hanging unit.
Another advantage of the present development is the ability to easily adjust the height of the hanging or standing unit.
Still another advantage of the present development is the ability to easily add additional shelves to the unit and to adjust the height to accommodate what needs to be stored.
Other benefits and advantages of the present disclosure will become apparent to those skilled in the art upon a reading and understanding of the preferred embodiments.
The invention may take form in various components and arrangements of components, and in various steps and arrangements of steps. The drawings are only for purposes of illustrating preferred embodiments and are not to be construed as limiting the invention.
Referring to
Each J bar has two horizontal arms where the upper horizontal arm is used to provide support for an HVAC unit and the lower horizontal arm is used to provide support for an emergency drain pan. Each horizontal arm is sized to telescope into a connecting sleeve and the horizontal arms and connection sleeves have openings for receiving ringed clevis pins or nuts and bolts to lock the two together. Extension members of various lengths are available which telescope into the coupling sleeves for adjusting the width between the left and right J bars to the width of the HVAC unit which is to be supported by the air handler support unit. The extension members and the coupling sleeves each have openings which are spaced apart by between one and two inches, more or less for receiving ringed clevis pins or nuts and bolts to lock the two together for different dimension applications.
The paddle arms each have at their upper ends a flat plate which is adapted to be located next to a wood support member and has openings which are provided to receive bolts or screws which are used to attach the paddle arm to a wood support member such as a wood rafter, joist or beam.
In another embodiment the flat plate at the upper ends of the paddle arms is adapted to receive at least one C clamp which is used to attach the paddle arms to steel beams.
The air handler support unit disclosed telescopes both horizontally and vertically to accommodate units having various heights and widths. The spacing between the front and rear paddle arms is varied to accommodate the length of the HVAC unit. The support unit bottom shelf may be outfitted with two “H” hangers to receive the telescoping emergency drain pan horizontal arm, which can be relocated to the upper shelf to help in removing internal parts of each unit. The entire support unit disclosed is adjustable to receive HVAC units of different heights, widths and lengths.
Referring to
Upper paddle arm 14 is a square tube composed of steel and having a length of about twenty four inches, more or less. The top of the paddle arm 14 is welded to a flat plate 18 having a length of about eight inches, a width of about three inches and a thickness of about one-eighth of an inch, more or less. The flat plate 18 has two columns of openings 20, (see
The paddle arm 14 has a first plurality of openings 24 located at spaced apart intervals (e.g., on two inch centers) which are parallel to the width of the flat plate, and a second plurality of openings 26, (see
Referring to
Each J bar telescopes over and is adjustably attached to a paddle arm which allows for different height adjustments from twenty six inches to forty inches in two inch increments. Connecting sleeves 32, 34 on opposing horizontally extending arms 32, 34 of the J bars telescope around horizontal extension members 38 for different width adjustments of between twenty eight inches and forty inches in two inch increments.
Referring now to
In the present embodiment, a second plurality of openings 130 of the upper arms 104 are located at spaced apart intervals (e.g., on two inch centers) on the front and rear of the square tube, and a third plurality of openings 136, are located at spaced apart intervals (e.g., on two inch centers) on the left and right side of the square tube offset from the second plurality of openings 130. The second and third plurality of openings 130 and 136, respectively, are located at a desired interval for the intended use of the support unit 100. The upper arms 104 telescope into the J bars 106. The J bars 106 may be square tubes composed, for example, of steel or other metal or metal alloy with an inside dimension which makes a sliding fit with the outside dimension of the upper arms 104. Located at the bottom of each J bar 106 is a horizontally extending arm 110 which may be integral with the vertical portion of the J bar bent to form the horizontally extending portion 110 of the J bar 106. Alternatively, the horizontal arms 110 may be separately formed and attached, e.g., by welding the horizontally extending arms 110 to the bottom of the upper portion of the J bars 106. The arms 110 may be square tubes with the same width as the width of the vertically extending portion of the J bars 106.
The extension members 112 are telescopically received within the arms 110. The J bars 106 and horizontal arms 110 have one or more clearance openings 114 for receiving fasteners 116 for securing the J bars and the telescopically received arms 104 and extension members 112 in fixed position. The fasteners 116 may be, for example, pins, Clevis pins, thumb screws, nuts and bolts, or the like for attaching the J bars 106 to the arms 104 and the horizontally extending arms 110 to the extension members 112. Depending on the means used to secure the extension members 112 inside of the horizontally extending arms 110, the extension members 112 may include a plurality of openings 132 evenly spaced apart along the member 112. In the preferred exemplary embodiment the extension members 112 enable the support unit 100 to expand from approximately 32 inches wide to approximately 48 inches wide although other dimensions are contemplated. The extension members 112 are secured inside of the horizontally extending arms 110 via fasteners 116 which pass through the clearance openings 114 and into one of the plurality of openings 132 to secure the unit 100 at the desired width.
One or more support members 118 may optionally be attached to the horizontal arms 110. The support members 118 are attached to the arms 110 using coupling sleeves or hooks 120. The coupling hook 120 at a first end of the support member 118 attaches to one horizontally extending arm 110 and the coupling hook 120 at a second end of the support member 118 attaches to a parallel horizontal arm 110. The support members 118 provide additional support for items that are being stored on the support unit 100. The support members 118 may be square tubes composed, for example, of steel or other metal or metal alloy with a dimension to hold the weight of the item selected for supporting. The coupling hooks 120 may be welded to the ends of the support members 118 and may be made of a sheet of steel or other metal or metal alloy which is bent to create three sides which slip over the square tubes of the horizontal arms 110. The inside dimension of the coupling hooks 120 makes a sliding fit with the outside dimension of the horizontal arms 110.
In an alternative embodiment, the support members 118 may include two arms (not shown) where the first arms (not shown) telescope into the second arms (not shown) to increase and decrease the width between the horizontal arms 110 of the support unit 100. The first and second arms (not shown) each having a coupling hook 120 attached at the outside end for securing to the horizontal arms 110. The first and second arms may be square tubes composed of a metal or metal alloy (e.g., steel) with the inside dimension of the first arm making a sliding fit with the outside dimension of the second arm at their inside ends.
As best seen in
Referring now to
In the present embodiment, the first plurality of openings 208 of the upper arms 204 are located at spaced apart intervals (e.g., on two inch centers) on the front and rear of the square tube, and a second plurality of openings 209, are located at spaced apart intervals (e.g., on two inch centers) on the left and right side of the square tube offset from the first plurality of openings 208. The first and second plurality of openings 208 and 209, respectively, are located at a desired interval for the intended use of the support unit 200. The upper arms 204 telescope into the J bar 206 to raise and lower the height of the support unit 200. The J bar 206 may be a square tube composed of a metal or metal alloy (e.g., steel) with an inside dimension which makes a sliding fit with the outside dimension of the upper arms 204.
Located at the bottom of the J bar 206 is one horizontally extending arm 210 which may be integral with the vertical portion of the J bar and bent to form the horizontally extending portion 210 of the J bar 206. Alternatively, the horizontal arms 210 may be separately formed and attached, e.g., by welding the horizontally extending arms 210 to the bottom of the upper portion of the J bars 206. The arms 210 may be square tubes with the same width as the width of the vertically extending portion of the J bars 206. One or more additional horizontally extending arms 220 are located on the vertical portion of the J bar 206 above the horizontally extending arm 210 and are welded to the J bar 206. Each arm 220 is a square tube with a width the same as the width of the horizontally extending arm 210. The arms 220 may alternately be attached to the J bar 206 using coupling sleeves, the coupling sleeve may slide over the vertical portion of the J bar 206 and may be secured to the J bar 206 via a fastener. The extension member 212 telescopes into the arm 210 and each of the extension members 222 telescope into the corresponding and aligned arms 220. The J bar 206 and horizontal arms 210 and 220 have clearance openings 214 for receiving fasteners 216 for securing the J bars 206 to the arms 204 and the telescopically received extension members 212 and 222 to the arms 210 and 220, respectively, in a fixed position. The fasteners 216 may be, for example, pins, Clevis pins, thumb screws, nuts and bolts, or the like for attaching the J bars 206 to the arms 204 and the extension members 212 and 222 to the arms 210 and 220.
Referring now to
The upper arms 304 and horizontally extending arms 310 are of the type described above with reference to
The shelf created by arms 310 and extension members 312 may be used to hold audio and visual equipment, such as cable boxes, DVD players, game consoles, and the like. The shelf created by arms 320 and extension members 322 may be used to suspend a television from the ceiling at a desired height rather than mounting it onto a wall or supported on a stand. Although the illustrated embodiment shows two horizontal shelves, it will be recognized that additional supports may be inserted to provide additional support for the television and audio and visual components.
Referring now to
The upper arms 404 and horizontally extending arms 410 are of the type described above with reference to
The extension member 412 telescopes into arm 410 and is slidably adjustable to obtain the desired separation between opposing J bars 406. The extension member 412 is of the type described above with reference to
The shelves created by arm 410 and extension member 412, and arms 418, and 422 may advantageously be used as closet shelves for clothes, shoes, sheets, towels, and any other items stored in a closet and may include transversely-extending rods for clothing and other items on clothes hangers. Additional arms may be added to provide additional shelves and rods for alternative closet storages shelving arrangements.
Referring now to
The upper arms 504 and horizontally extending arms 510 are of the type described above with reference to
Additional support for items to be stored above the garage door 526 is provided by a plurality of support members 518, in the preferred embodiment there are four additional support members. Although the illustrated embodiment shows four support members, it will be recognized that support members may be removed or added to provide the desired amount of support for items stored on the unit 500. The support members 518 are secured onto the arms 510 at a desired separation using coupling hooks 520. The coupling hooks 520 at the first end of the support member 518 are secured to the arms 510 at a desired point and the coupling hooks 520 at the second end of the support member 518 are secured to a parallel arm 510 the same distance from the curve of the J bar 506. In alternative embodiments fasteners, such as pins, Clevis pins, nuts and bolts, or the like may be used to secure the support members 518 to the arms 510. In another alternative embodiment, the support members 518 may be comprised of two telescopic segments. The support members 518 and coupling hooks 520 may be of the type described above with reference to
The shelves created by arm 510 and extension member 512, and support members 518 are used to create additional storage in the space above an open garage door.
Referring now to
In the present embodiment, the lower legs 604 may have a plurality of openings 614 located at spaced apart intervals (e.g., on two inch centers) on the front and rear of the square tube, and a second plurality of openings 640, are located in the preferred exemplary embodiment at spaced apart intervals (e.g., on two inch centers) on the left and right side of the square tube between the plurality of openings 614. The plurality of openings 614 and second plurality of openings 640 may be located at any desired interval based on the intended use of the support unit 600.
The lower legs 604 telescope into the L bars 606. The L bars 606 are square tubes composed of metal or metal alloy with an inside dimension which makes a sliding fit with the outside dimension of the lower legs 604. The L bars 606 have clearance openings 620 for receiving fasteners 622, such as pins, Clevis pins, thumb screws, nuts and bolts, or the like which align with the plurality of openings 614 and 640 in the lower legs 604 for attaching the L bars 606 to the lower legs 604. Located at the top of each L bar 606 is a horizontally extending arm 616 which is attached to the upright portion to form the L bars 606. The L bars 606 may be formed by welding the horizontally extending arms 616 to the top of the upper portion of the L bars 606 or alternatively may be formed by bending a single length of tubing as described above. The arms 616 are square tubes with the same width as the width of the top of the L bars 606 and may be made of steel or another metal or metal alloy. The arms 616 of the front right and front left L bars 606 and the arms 616 of the rear right and rear left L bars 606 are connected using extension members 618. The extension members 618 telescope into the horizontally extending arms 616. The arms 616 have clearance openings 624 for receiving fasteners, such as pins, Clevis pins, thumb screws, nuts and bolts, or the like for attaching the horizontally extending arms 616 to the extension members 618. Depending on the means used to secure the extension members 618 inside of the horizontally extending arms 616, the extension members 618 may include a plurality of openings 638 evenly spaced apart along the extension members 618. In the preferred exemplary embodiment the extension members 618 enable the support unit 600 to expand from approximately two feet two inches to approximately three feet two inches although other dimensions are contemplated.
One or more support members 626 may optionally be attached to the horizontal arms 616. The support members 626 are attached using coupling hooks 630. The coupling hooks 630 are attached at a first end of the support member 626 to a front horizontally extending arm 616 and at a second end of the support member 626 to the corresponding rear horizontally extending arm 616. The support members 626 and coupling hooks 630 may be of the type described above with reference to
The support members 626 can be a set length or extendable. If the support members 626 are to be extendable they may include a first arm 632 and a second arm 634. The first and second arms 632 and 634, respectively, are square tubes made of metal or metal alloy, such as steel. The first arms 632 are preferably the same width as the width of the L bars 606. The second arms 634 are telescopically received within the first arms 632. The first and second arms 632 and 634 may have clearance openings 636 for receiving a fastener for securing the arms 632 and 634 at a defined width, such as a pin e.g., a Clevis pin, thumb screw, nut and bolt, or the like for attaching the first arms 632 to the second arms 634. Depending on the means used to secure the second arm 634 inside of the first arm 632, the second arms 634 may include a plurality of openings (not shown) evenly spaced apart along the second arms 634 to provide a plurality of sizing options. In the preferred exemplary embodiment the support members 626 may expand from two feet eight inches to four feet, although other dimensions are contemplated.
When the support unit 600 is used for an HVAC system an optional pan (not shown) may be placed under the horizontally extending arms 616 and the support members 626 and/or on the top of base support structure 612 to catch any water that may be expelled if the HVAC system is not working properly.
As best seen in
Another alternative embodiment 800, also advantageous for use on a flat roof, appears in
As best seen in
Referring now to
In the present embodiment, the first plurality of openings 962 are located at spaced apart intervals (e.g., on two inch centers) on the front and rear of the square tube, and the second plurality of openings 964, are located at spaced apart intervals (e.g., on two inch centers on the left and right side of the square tube offset from the first plurality of openings 962. The first and second plurality of openings 962 and 964, respectively, are located at a desired interval for the intended use of the support unit 950. The hanging arms 952 and 954 telescope into the U bar 956. The U bar 956 may be a square tube bent into a U shape and composed, for example, of steel or other metal or metal alloy with an inside dimension which makes a sliding fit with the outside dimension of the hanging arms 952 and 954.
Located at the bottom of the U bar 956 is an attachment opening 966 for attaching a rotating support member 968, such as a fastener, bracket, or the like, for securing a HVAC unit, television and audio visual equipment, hanging storage units, pot racks, and the like to the support unit 950. The rotating support member 968 is secured to the U bar 956 via a fastener 972, for example, pins, Clevis pins, thumb screws, nuts and bolts, or the like, which enables the support member 968 to rotate 360 degrees about the fastener 972.
The invention has been described with reference to the preferred embodiments. Modifications and alterations will occur to others upon a reading and understanding of the preceding detailed description. It is intended that the invention be construed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
This application is a divisional application of U.S. application Ser. No. 13/274,763 filed Oct. 17, 2011, now pending, which is a continuation-in-part of U.S. application Ser. No. 13/006,316 filed Jan. 13, 2011, now U.S. Pat. No. 8,701,261. The entire contents of each of the aforementioned applications are incorporated herein by reference.
Number | Date | Country | |
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Parent | 13274763 | Oct 2011 | US |
Child | 14321239 | US |
Number | Date | Country | |
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Parent | 13006316 | Jan 2011 | US |
Child | 13274763 | US |