US20060052050A1 - Air distribution apparatus - Google Patents
Air distribution apparatus Download PDFInfo
- Publication number
- US20060052050A1 US20060052050A1 US11/215,094 US21509405A US2006052050A1 US 20060052050 A1 US20060052050 A1 US 20060052050A1 US 21509405 A US21509405 A US 21509405A US 2006052050 A1 US2006052050 A1 US 2006052050A1
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- US
- United States
- Prior art keywords
- duct
- air distribution
- air
- distribution apparatus
- adapter
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/34—Nozzles; Air-diffusers
- B60H1/3414—Nozzles; Air-diffusers with means for adjusting the air stream direction
- B60H1/3428—Nozzles; Air-diffusers with means for adjusting the air stream direction using a set of pivoting shutters and a pivoting frame
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/34—Nozzles; Air-diffusers
- B60H1/3407—Nozzles; Air-diffusers providing an air stream in a fixed direction, e.g. using a grid or porous panel
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/34—Nozzles; Air-diffusers
- B60H2001/3464—Details of hinges
Definitions
- the present invention relates to air distribution apparatus, and more particularly to air distribution apparatus including a pivoting duct.
- HVAC systems to provide comfort for occupants located in living spaces of a vehicle.
- an HVAC system with an air distribution apparatus located on the ceiling to direct air from a duct to the living spaces within the unit. Air may be directed generally outward from the vent.
- an air distribution apparatus that is capable of selectively dispensing air along the side of the air distribution apparatus in addition to outwardly from the apparatus.
- an air distribution apparatus comprises an air distribution housing including an outer wall and an interior area.
- the air distribution apparatus further includes a duct pivotally connected to the housing and configured to pivot about an axis from a retracted position to an extended position. A portion of the duct is received in the interior area of the housing in the retracted position and the portion of the duct extends outside of the interior area in the extended position.
- an air distribution apparatus comprises an adapter configured to be attached with respect to an opening of an air distribution housing.
- the air distribution apparatus further includes a duct pivotally connected to the adapter and configured to pivot about an axis from a retracted position to an extended position with respect to the adapter.
- FIG. 1 depicts an example of an air distribution apparatus comprising an air distribution housing and a plurality of duct assemblies mounted to the ceiling of an interior area of a vehicle;
- FIG. 2A is an example of an air distribution apparatus comprising a duct and an adapter wherein the duct is pivoted to a retracted position with respect to the adapter;
- FIG. 2B depicts the duct and adapter of FIG. 2A with the duct pivoted to an extended position with respect to the adapter;
- FIG. 3 is a front view of the duct and adapter of FIG. 2A ;
- FIG. 4 is a front view of a duct in accordance with one example of the present invention.
- FIG. 5 is a top view of the duct of FIG. 4 ;
- FIG. 6 is an exploded view of a duct and an air diverter apparatus in accordance with one example of the present invention.
- FIG. 7 is a partial exploded view illustrating the assembled duct and air diverter apparatus of FIG. 6 being exploded from the adapter.
- examples of an air distribution apparatus can be provided for mounting to a wall surface of an interior area of a vehicle.
- the illustrated air distribution apparatus 20 can be mounted to a ceiling 100 of an interior area of a vehicle.
- the air distribution apparatus may be mounted on a side wall, the floor, or other surfaces of the vehicle.
- an air distribution apparatus can include one or more structures illustrated in the figures.
- the air distribution apparatus can comprise one or more of a pivoting duct, an air distribution housing and/or an adapter.
- FIG. 1 depicts an air distribution apparatus 20 comprising an air distribution housing 22 and at least one duct assembly including a pivoting duct (e.g., 24 a, 24 b, 24 c, 24 d ) and a corresponding adapter 50 .
- the air distribution apparatus may comprise a pivoting duct directly mounted to an air distribution housing without an adapter.
- the air distribution apparatus can comprise a duct assembly 70 with a pivoting duct 24 mounted to an adapter 50 without an air distribution housing.
- the air distribution housing can comprise a structure that acts as a protective covering for one or more components of a heating, ventilation and air conditioning (HVAC) unit.
- HVAC heating, ventilation and air conditioning
- the air distribution housing can comprise a structure that cooperates with a portion of an adjacent surface, such as a wall surface or other structure, to provide one or more plenum spaces for defining one or more corresponding air stream paths.
- the air distribution housing 22 can include an outer wall 21 and an interior area 29 .
- the air distribution housing can comprise various materials or combinations of materials to provide sufficient structural integrity while minimizing the weight of the air distribution housing and costs of the materials used to produce the housing.
- the housing may be fabricated from materials including, but not limited to, a plastic, a metallic and/or a composite material or the like.
- the duct assembly 70 provides a duct 24 that can be pivotally connected to the adapter 50 and configured to pivot about an axis 68 from a retracted position (e.g., see FIG. 2A ) to an extended position (e.g., see FIG. 2B ).
- FIGS. 4-6 depict one example of a pivoting duct 24 that may be used in accordance with aspects of the present invention.
- the pivoting duct may comprise various shapes and sizes depending on the particular application.
- the duct 24 can comprise a substantially triangular shape with a first side 45 a, a second side 45 b, and a third side 45 c.
- a substantially triangular top wall 44 a and a substantially triangular bottom wall 44 b extend between the first, second and third sides 45 a, 45 b, 45 c of the duct 24 .
- the top and bottom walls are illustrated as substantially planar wall portions that are spaced apart and extend parallel with respect to one another.
- the top and bottom walls 44 a, 44 b can be spaced from one another by a substantially closed portion 44 c of the third side 45 c and an opposed pivot structure 37 .
- the spaced apart top and bottom walls 44 a, 44 b provide the first side 45 a of the duct 24 with an air outlet opening 46 and also provide the second side 45 b of the duct 24 with an air inlet opening 48 .
- the substantially closed portion 44 c can comprise a variety of shapes in accordance with aspects of the present invention.
- the substantially closed portion 44 c can comprise a straight wall, a plurality of straight wall segments, or other wall shapes.
- the closed portion can comprise a substantially curved wall.
- the substantially curved wall if provided, can be approximated by a plurality of substantially straight wall segments.
- the substantially curved wall can comprise a continuously curved wall segment. Providing a substantially curved wall can help bend the air stream as it passes from the air inlet opening 48 to the air outlet opening 46 .
- providing a continuously curved wall segment can reduce air flow resistance as the air stream travels from the air inlet opening to the air outlet opening of the duct.
- the substantially curved wall can optionally extend about the pivot axis 68 such that the curved wall is substantially continuously spaced from a side of the adapter as the duct is pivoted relative to the pivot axis 68 .
- the substantially curved wall can extend at a substantially constant radius about the pivot axis 68 . Providing a substantially continuous spacing between the curved wall and the adapter can help reduce pinch points as the duct pivots relative to the adapter.
- the pivot structure 37 can be configured to be pivotally mounted to the adapter 50 .
- the pivot structure comprises a pivot pin 38 having a first end extending above the top wall 44 a and a second end extending below the bottom wall 44 b.
- the first and second ends of the pivot pin 38 are adapted to be received in a corresponding one of a first set of pivot holes 54 a, 54 b provided in the adapter 50 .
- the adapter 50 can also include a second set of pivot holes 56 a, 56 b to permit selective mounting of the duct 24 to the opposite side of the adapter 50 .
- the duct 24 may be mounted for pivoting out from either side of the adapter 50 to allow customization of the air distribution apparatus to guide air in various directions.
- pivot structure 37 may be provided.
- the pivot structure may comprise one or more pivot apertures adapted to receive a pivot pin from the adapter.
- both the adapter and the pivot structure of the duct may include apertures that may be aligned to receive a separate pivot pin therethrough.
- other structures such as hinge mechanisms, or the like, may be employed.
- the illustrated pivot structure provides a fixed pivot point, it is also contemplated that the pivot structure may travel as the duct is pivoted relative to the adapter.
- the pivot structure may be configured such that the pivot axis travels along a linear and/or arcuate path as the duct pivots relative to the pivot axis.
- the duct may pivot relative to the adapter in incremental or continuous adjustments throughout a wide variety of angles.
- the duct may be capable of pivoting from approximately 0° to approximately 180°.
- the duct may be capable of pivoting from approximately 0° to approximately 120°.
- the duct may be capable of pivoting from approximately 0° to approximately 90°.
- the duct is capable of pivoting from approximately 0° to approximately 45°.
- Examples of ducts in accordance with the present invention can include at least one stop adapted to limit pivoting movement of the duct with respect to the housing.
- the stop may be adjustable such that the pivoting range of the duct with respect to the adapter may be adjusted to accommodate the preferences of a user.
- the stop may be fixed such that the pivoting range of the duct is not adjustable, but predetermined when manufacturing the air distribution apparatus.
- the duct includes an extension stop 40 configured to define a maximum extended position of the duct with respect to the adapter 50 .
- FIG. 4 depicts a first extension stop 40 provided on the top wall 44 a and a second extension stop 42 provided on the bottom wall 44 b. Providing a first and second extension stop can reduce stress on the pivot structure due to bending moments that might otherwise develop with a single extension stop.
- the extension stops 40 , 42 are adapted to interact with a surface of the adapter 50 to limit extension of the duct with respect to the adapter.
- the adapter 50 may include a slot, such as the illustrated arcuate slot 60 , adapted to receive the upper extension stop 40 .
- the adapter may include a similar slot adapted to receive the lower extension stop 42 . Providing slots may be beneficial in applications where the depth of the adapter 50 is increased to accommodate other aspects of the adapter, such as a latching structure as discussed more fully below.
- the adapter 50 may also include an optional slot, such as an optional arcuate slot 58 , adapted to receive the upper stop 40 if the pivot structure 37 of the duct is mounted on the opposite side of the adapter 50 .
- the adapter may also include a similar slot, opposed to the arcuate slot 58 , adapted to similarly receive the lower stop 42 when the duct is mounted on the opposite side of the adapter 50 .
- the duct 24 can also include a retraction stop 25 configured to define a maximum retracted position of the duct 24 with respect to the adapter 50 .
- the retraction stop 25 is adapted to interact with an outer surface of the adapter 50 to limit the extend to which the duct 24 may be retracted within the adapter 50 .
- the retraction stop 25 can comprise a protrusion that extends outside of the adapter in both the retracted and extended positions. The illustrated extended protrusion can function as a handle to permit a user to apply force to the duct to pivot the duct 24 with respect to the adapter 50 .
- the duct assembly 70 may also include a device adapted to encourage maintenance of a desired pivotal orientation of the duct 24 with respect to the adapter 50 .
- the device can comprise a low friction material that provides an interference fit between the duct and the adapter.
- the low friction material may comprise a low friction polymer or the like.
- the device can comprise a friction material to increase friction between the duct and the adapter.
- the device comprises a friction material 66 adapted to provide a desired resistance to pivoting between the duct 24 and the adapter 50 .
- the friction material can comprise a wide range of materials and structures to facilitate maintenance of the desired angular relationship.
- the friction material may comprise a felt material or other compressible material.
- the friction material can comprise protrusions from one or both of the duct and adapter to provide a desired level of pivotal resistance.
- complementary protrusions and recesses may be employed to provide discrete pivotal orientations.
- one or more detents, grooves, or other recesses may be formed on one or both of the duct and adapter.
- One or more complementary dimples, ribs or other protrusions may be formed on the other or both of the duct and adapter.
- the recesses and protrusions may cooperate with one another at predetermined pivotal orientations to help maintain a predetermined angular relationship between the duct and adapter.
- the duct and adapter may be designed with an interference between at least portions of the duct and adapter to help maintain the desired orientation.
- the pivot structure can also be designed to inhibit undesirable rotation.
- the pivot structure can be designed to require a minimum moment about the pivot axis before the duct pivots relative to the adapter.
- FIG. 7 The process of pivotally attaching the duct 24 with respect to the adapter 50 to form the duct assembly 70 is illustrated in FIG. 7 .
- the optional friction material 66 may be attached to an interior surface of the adapter such that the friction material engages a surface of the duct 24 once assembled.
- the pivot structure 37 is attached to the adapter 50 to provide a desired pivotal relationship between the duct 24 and the adapter 50 .
- the first and second ends of the pivot pin 38 may be inserted in the first pair of pivot holes or the second pair of pivot holes.
- first and second ends of the pivot pin 38 may be inserted in respective first and second pivot holes 54 a, 54 b of the first set of pivot holes.
- first and second ends of the pivot pin 38 may be inserted in respective first and second pivot holes 56 a, 56 b of the second set of pivot holes.
- the duct 24 may pivot within a limited range with respect to the adapter 50 to change the direction of the air stream passing through the air outlet opening 46 .
- the duct 24 may be retracted along retraction direction 43 b until the retraction stop 25 engages an outer edge of the adapter 50 .
- FIG. 2A illustrates the duct 24 in the fully retracted position wherein the air outlet opening 46 faces a first undiverted direction 46 a.
- FIG. 2B illustrates the duct 24 in the fully extended position wherein the air outlet opening 46 faces a second undiverted direction 47 a. Comparing FIGS. 2A and 2B , the first undiverted direction 46 a extends at an angle, for example about 45°, with respect to the second undiverted direction 47 a.
- the direction of the air stream may be changed by a predetermined angle, such as about 45°, by simply pivoting the duct 24 with respect to the adapter 50 .
- a predetermined angle such as about 45°
- the user may release the retraction stop 25 (e.g., handle) wherein the friction material 66 will encourage maintenance of the desired angle between the duct and the adapter. Therefore, the friction material 66 may maintain the duct at the fully retracted position, the fully extended position, or some position between the fully retracted and extended positions.
- Duct assemblies in accordance with examples of the present invention may include an optional air diverter apparatus adapted to change the undiverted direction of air flowing from the air outlet opening.
- Air diverter apparatus may include a variety of structures adapted to change the air flow direction.
- the air diverter apparatus can include a plurality of vanes adapted to move with respect to the duct.
- the vanes may each have a rotation axis, wherein the rotation axes are parallel with respect to one another.
- the vanes may be linked such that each vane rotates simultaneously about a corresponding rotational axis.
- an air diverter apparatus 80 is provided with a plurality of vanes 26 that are fixedly mounted to a rotation shaft 82 .
- the vanes 26 can therefore be arranged such that rotation of the shaft 82 results in corresponding simultaneous rotation of each of the vanes 26 .
- the vanes 26 can comprise a plurality of disks that are attached at a predetermined angle relative to the shaft 82 .
- Various angles can be selected depending on the particular application.
- the vanes 26 are mounted at a 45° angle with respect to the shaft 82 .
- the vanes can be mounted at a 30° angle with respect to the shaft although other angles may be selected in further embodiments.
- the air diverter apparatus 80 can comprise an adjustment wheel 88 configured to selectively rotate the shaft 82 .
- the wheel may be formed integrally with the shaft or may be nonrotatably attached to the shaft.
- the shaft 82 can be provided with a keyed portion 84 configured to be received in an aperture 90 of the adjustment wheel 88 . Once the keyed portion 84 is received in the aperture 90 , rotation of the wheel 88 will result in a corresponding rotation of the shaft 82 .
- the air diverter apparatus 80 may also include a device adapted to encourage maintenance of a desired rotational orientation of the vanes 26 relative to the adapter 50 .
- the device can comprise material or structures similar to the device described with respect to the friction material 66 above.
- the device can comprise a low friction material that provides an interference fit between the adjustment wheel 88 and an inside surface of the duct 24 .
- the low friction material for example, may comprise a low friction polymer or the like.
- the device can comprise a friction material to increase friction between the duct and the adapter.
- the device comprises a friction material 92 adapted to provide a desired resistance to pivoting between the adjustment wheel 88 and the duct 24 .
- the friction material 92 can include a central aperture to permit passage of a first pivot pin 86 a of the rotation shaft 82 .
- the friction material 92 may be provided without a central aperture.
- the friction material 92 may be located entirely on one side of the first pivot pin 86 a wherein less than half of the wheel 88 is engaged at one time.
- the friction material can comprise a wide range of materials and structures to facilitate maintenance of the desired rotational relationship.
- the friction material may comprise a felt material or other compressible material.
- the friction material 92 may be attached to an interior surface of the duct 24 adjacent a first pivot hole 49 a in the duct 24 .
- the first pivot pin 86 a is inserted through the aperture 90 in the adjustment wheel 88 .
- the adjustment wheel 88 is then axially moved with respect to the rotation shaft 82 until the key 84 of the shaft 82 is nonrotatably received in the aperture 90 of the wheel 88 .
- the air diverter apparatus 80 is then positioned within the air outlet opening 46 of the duct 24 with the first pivot pin 86 a received in the first pivot hole 49 a and a second pivot pin 86 b received in a second pivot hole 49 b.
- the pivot pins 86 a, 86 b and the pivot holes 49 a, 49 b can permit infinite rotation of the rotation shaft 82 about a rotation axis.
- the air diverter apparatus can also include at least one stop adapted to limit a rotational movement of the air diverter apparatus relative to the duct.
- a user may adjust the air diverter apparatus 80 by rotating the wheel 88 until a desired rotational orientation between the vanes 26 and the duct 24 is achieved. Once the wheel is released, the friction material 92 may facilitate maintenance of the desired rotational relationship between the vanes 26 and the duct 24 .
- the air diverter apparatus 80 if provided, can therefore change the direction of air flowing through the air outlet opening 46 .
- a user may rotate the wheel wherein the direction of air flowing through the air outlet opening can fluctuate on either side of the undiverted direction by the angle between the vanes 26 and the rotation shaft 82 .
- the illustrated embodiment includes vanes 26 oriented at approximately 45° with respect to the rotation axis 82 . Accordingly, in the retracted position shown in FIG.
- rotation of the adjustment wheel 88 can result in a diverted air path extending along a diverted direction 46 b that is +45° from the undiverted direction 46 a.
- the adjustment wheel 88 may be further rotated such that a diverted air path extends along another diverted 46 c direction that is ⁇ 45° from the undiverted direction 46 a.
- rotation of the adjustment wheel 88 can result in a diverted air path extending along a diverted direction 47 b that is +45° from the undiverted direction 47 a.
- the adjustment wheel 88 may be further rotated such that a diverted air path extends along another diverted 47 c direction that is ⁇ 45° from the undiverted direction 47 a.
- the air diverter apparatus 80 can either add to or subtract from the change in air direction achieved by pivoting the duct relative to the adapter.
- the duct 24 may be pivoted 45° about the pivot axis 68 to the maximum extended position illustrated in FIG. 2B .
- the adjustment wheel 88 of the air diverter apparatus 80 may then be rotated to change the air stream direction an additional 45° such that the final diverted direction 47 b extends approximately 90° from the first undiverted direction 46 a.
- the adjustment wheel 88 of the air diverter apparatus 80 may be further rotated to subtract from the change in direction achieved by pivoting the duct relative to the adapter.
- the adjustment wheel of the air diverter apparatus 80 may be rotated to reduce the change in air stream direction by 45° such that the final diverted direction 47 c extends substantially parallel with respect to the first undiverted direction 46 a. It will therefore be appreciated that pivoting the duct relative to the adapter and rotating the air diverter apparatus relative to the duct can achieve a wide variety of air diversion paths. For instance, as shown in FIGS. 2A and 2B , the air path can fluctuate between one maximum diverted direction 46 c in the retracted position and another maximum diverted direction 47 b in the extended position.
- the adapter 50 can be configured to be attached with respect to an opening 23 of an air distribution housing 22 .
- the adapter may include one or more latches 52 adapted to engage the outer wall 21 of the air distribution apparatus 20 .
- the adapter 50 includes two upper latches 52 and two lower latches although more or less latches may be employed in further embodiments.
- Each latch can include a ramp surface 51 and an abutment surface 53 .
- a rear end of the adapter is first inserted in the opening 23 of the air distribution housing 22 .
- the adapter is further inserted until shoulders 55 a, 55 b of the adapter 50 engage an outer surface of the outer wall 21 . Once the shoulders engage the outer wall, the latches 52 snap behind the outer wall 21 such that the abutment surface 53 engages the rear surface of the outer wall 21 to trap the adapter 50 relative to the housing 22 .
- Components of the duct assembly 70 can comprise various materials or combinations of materials to provide sufficient structural integrity while minimizing the weight of the air distribution housing and costs of the materials to produce the housing.
- the adapter 50 , duct 24 and/or components of the air diverter apparatus 80 may be fabricated from materials including, but not limited to, a plastic, a metallic and/or a composite material or the like.
- One or more duct assemblies 70 in accordance with aspects of the present invention can be used with various air distribution housings.
- the illustrated air distribution housing 22 is provided with a first duct assembly 70 a, a second duct assembly 70 b, a third duct assembly 70 c, and a fourth duct assembly 70 d.
- four duct assemblies 70 a, 70 b, 70 c, 70 d are illustrated, more or less than four duct assemblies may also be provided.
- the air distribution housing may also accommodate air return vents and/or controls for a heating, ventilation and air conditioning (HVAC) unit.
- HVAC heating, ventilation and air conditioning
- One or more duct assemblies 70 in accordance with aspects of the present invention can also be positioned in a wide range of orientations with respect to the air distribution housing.
- one or more of the duct assemblies may be provided on a top side 35 of the housing.
- one or more duct assemblies may be positioned about a periphery of the air distribution housing.
- one or more duct assemblies may be provided on a right side 34 and/or a left side 36 of the housing.
- the first and second duct assemblies 70 a, 70 b are arranged on a front side 30 of the air distribution housing 22 while the third and fourth duct assemblies 70 c, 70 d are arranged on a rear side 32 of the air distribution housing 22 .
- Arranging the duct assemblies on the front side and rear side can permit each duct assembly to direct air in a direction generally away from the respective front side or rear side and to further guide air in a direction substantially parallel with the respective front side or rear side.
- the duct assembly may guide the air path along the first undiverted direction 46 a extending generally away and perpendicular from the rear side 32 of the air distribution housing 22 .
- the duct assembly 70 c can deflect the air stream within a range from about +/ ⁇ 45° from the first undiverted direction 46 a along direction 46 b (i.e., by deflecting the air stream about +45° with respect to the pivot axis 68 ) or along direction 46 c (i.e., by deflecting the air stream about ⁇ 45° with respect to the pivot axis 68 ).
- the duct 24 may be pivoted outward within a range of about 0° to about +45° with respect to the pivot axis 68 .
- the duct may be pivoted to the fully extended position to provide an air path extending along the second undiverted direction 47 a that is about +45° from the first undiverted direction 46 a. Therefore, in the fully extended position, the illustrated duct may guide the air path in a direction generally away from the rear side 32 and generally toward the right side 34 of the air distribution housing 22 along the second undiverted direction 47 a.
- the duct may guide the air path in a direction generally away and perpendicular from the rear side 32 along diverted direction 47 c. Still further, the air diverter apparatus 80 can also be adjusted to guide the air path in a direction generally parallel to the rear side 32 from the left side 36 to the right side 34 of the air distribution housing 22 along diverted direction 47 b.
- the rear side 32 of the air distribution housing 22 illustrates both the third and fourth duct assemblies 70 c, 70 d being mounted such that each duct can guide the air path in a direction generally parallel to the rear side 32 from the left side 36 to the right side 34 of the air distribution housing. It is contemplated that one or both of the duct assemblies may be reversed such that one or both of the duct assemblies act to guide the air path in a direction generally parallel to the rear side from the right side to the left side of the air distribution housing.
- the second duct assembly 70 b is illustrated as being mounted such that the duct may guide the air path in a direction generally parallel to the front side 30 from the right side 34 to the left side 36 of the air distribution housing 22 along diverted direction 47 b.
- one or more duct assemblies 70 may be mounted in various orientations to accommodate various environments.
- all of the duct assemblies 70 may be mounted to guide the air path in a direction generally parallel to the respective side from the right side to the left side of the air distribution housing.
- all of the duct assemblies 70 may be mounted to guide the air path in a direction generally parallel to the respective side from the left side to the right side of the air distribution housing.
- duct assemblies may be arranged such that at least one duct assembly can guide an air path in a direction generally parallel to a side from the left side to the right side while at least another duct assembly can guide an air path in a direction generally parallel to a side from the right side to the left side of the air distribution housing.
- each duct 24 a, 24 b, 24 c, 24 d is indirectly pivotally connected to the air distribution housing 22 by way of an adapter 50 .
- Providing the air distribution assembly 20 with an adapter can be beneficial to retrofit existing air distribution assemblies without replacement of the existing air distribution housing.
- each duct may also be configured to be directly pivotally connected to the air distribution housing 22 without the use of an adapter. Attaching the duct without an adapter can reduce the number of parts necessary for providing the air distribution apparatus.
- Air distribution apparatus in accordance with the present invention can have a wide range of applications.
- examples of an air distribution apparatus can be provided for mounting to a wall surface of an interior area of a vehicle.
- the air distribution apparatus can be provided for mounting to a ceiling, side wall, floor or other surfaces of a vehicle.
- air distribution apparatus herein may be used in a wide variety of vehicles.
- vehicles incorporating one or more air distribution apparatus may comprise motorized or nonmotorized vehicles.
- vehicles can comprise recreational vehicles (RV), pull trailers or other vehicles.
- Certain vehicles can also comprise pop-out living spaces that may be collapsed during transportation and later deployed once parked at a desired location.
- one or more air distribution apparatus can be mounted on a ceiling or other structure to selectively direct air into one or more of the pop-out living areas.
- the air distribution apparatus may be mounted to a surface, such as a ceiling surface, wherein an air stream may be directed toward the front or rear of the main interior area of the vehicle.
- the air stream may be directed laterally toward one or more pop-out living areas of the vehicle.
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Abstract
Description
- The present invention claims the benefit of U.S. Provisional Application No. 60/608,263 filed Sep. 9, 2004, the entire disclosure which is herein incorporated by reference.
- The present invention relates to air distribution apparatus, and more particularly to air distribution apparatus including a pivoting duct.
- Motor vehicles, such as long distance or over the road trucks, often include HVAC systems to provide comfort for occupants located in living spaces of a vehicle. For example, it is known to provide an HVAC system with an air distribution apparatus located on the ceiling to direct air from a duct to the living spaces within the unit. Air may be directed generally outward from the vent. However, it would be desirable to provide an air distribution apparatus that is capable of selectively dispensing air along the side of the air distribution apparatus in addition to outwardly from the apparatus.
- Accordingly, it is an aspect of the present invention to obviate problems and shortcomings of conventional air distribution apparatus.
- In accordance with one aspect, an air distribution apparatus comprises an air distribution housing including an outer wall and an interior area. The air distribution apparatus further includes a duct pivotally connected to the housing and configured to pivot about an axis from a retracted position to an extended position. A portion of the duct is received in the interior area of the housing in the retracted position and the portion of the duct extends outside of the interior area in the extended position.
- In accordance with another aspect, an air distribution apparatus comprises an adapter configured to be attached with respect to an opening of an air distribution housing. The air distribution apparatus further includes a duct pivotally connected to the adapter and configured to pivot about an axis from a retracted position to an extended position with respect to the adapter.
- The foregoing and other aspects of the present invention will become apparent to those skilled in the art to which the present invention relates upon reading the following description with reference to the accompanying drawings, in which:
-
FIG. 1 depicts an example of an air distribution apparatus comprising an air distribution housing and a plurality of duct assemblies mounted to the ceiling of an interior area of a vehicle; -
FIG. 2A is an example of an air distribution apparatus comprising a duct and an adapter wherein the duct is pivoted to a retracted position with respect to the adapter; -
FIG. 2B depicts the duct and adapter ofFIG. 2A with the duct pivoted to an extended position with respect to the adapter; -
FIG. 3 is a front view of the duct and adapter ofFIG. 2A ; -
FIG. 4 is a front view of a duct in accordance with one example of the present invention; -
FIG. 5 is a top view of the duct ofFIG. 4 ; -
FIG. 6 is an exploded view of a duct and an air diverter apparatus in accordance with one example of the present invention; and -
FIG. 7 is a partial exploded view illustrating the assembled duct and air diverter apparatus ofFIG. 6 being exploded from the adapter. - Certain terminology is used herein for convenience only and is not to be taken as a limitation on the present invention. Further, in the drawings, the same reference numerals are employed for designating the same elements.
- In accordance with aspects of the present invention, examples of an air distribution apparatus can be provided for mounting to a wall surface of an interior area of a vehicle. Although not required, the illustrated
air distribution apparatus 20 can be mounted to aceiling 100 of an interior area of a vehicle. In further examples, the air distribution apparatus may be mounted on a side wall, the floor, or other surfaces of the vehicle. - Examples of an air distribution apparatus can include one or more structures illustrated in the figures. For instance, the air distribution apparatus can comprise one or more of a pivoting duct, an air distribution housing and/or an adapter.
FIG. 1 depicts anair distribution apparatus 20 comprising anair distribution housing 22 and at least one duct assembly including a pivoting duct (e.g., 24 a, 24 b, 24 c, 24 d) and acorresponding adapter 50. In further embodiments, the air distribution apparatus may comprise a pivoting duct directly mounted to an air distribution housing without an adapter. Still further, as shown inFIGS. 2A, 2B and 3, the air distribution apparatus can comprise aduct assembly 70 with apivoting duct 24 mounted to anadapter 50 without an air distribution housing. - The air distribution housing can comprise a structure that acts as a protective covering for one or more components of a heating, ventilation and air conditioning (HVAC) unit. In addition, or alternatively, the air distribution housing can comprise a structure that cooperates with a portion of an adjacent surface, such as a wall surface or other structure, to provide one or more plenum spaces for defining one or more corresponding air stream paths. As shown in
FIG. 1 , theair distribution housing 22 can include anouter wall 21 and aninterior area 29. The air distribution housing can comprise various materials or combinations of materials to provide sufficient structural integrity while minimizing the weight of the air distribution housing and costs of the materials used to produce the housing. For example, the housing may be fabricated from materials including, but not limited to, a plastic, a metallic and/or a composite material or the like. - With reference to
FIGS. 2A, 2B and 3, theduct assembly 70 provides aduct 24 that can be pivotally connected to theadapter 50 and configured to pivot about anaxis 68 from a retracted position (e.g., seeFIG. 2A ) to an extended position (e.g., seeFIG. 2B ).FIGS. 4-6 depict one example of apivoting duct 24 that may be used in accordance with aspects of the present invention. The pivoting duct may comprise various shapes and sizes depending on the particular application. As shown inFIG. 5 , theduct 24 can comprise a substantially triangular shape with afirst side 45 a, asecond side 45 b, and athird side 45 c. A substantiallytriangular top wall 44 a and a substantiallytriangular bottom wall 44 b extend between the first, second andthird sides duct 24. Although not required, the top and bottom walls are illustrated as substantially planar wall portions that are spaced apart and extend parallel with respect to one another. The top andbottom walls portion 44 c of thethird side 45 c and anopposed pivot structure 37. The spaced apart top andbottom walls first side 45 a of theduct 24 with an air outlet opening 46 and also provide thesecond side 45 b of theduct 24 with an air inlet opening 48. - The substantially closed
portion 44 c can comprise a variety of shapes in accordance with aspects of the present invention. For example, the substantially closedportion 44 c can comprise a straight wall, a plurality of straight wall segments, or other wall shapes. In one example, the closed portion can comprise a substantially curved wall. The substantially curved wall, if provided, can be approximated by a plurality of substantially straight wall segments. Alternatively, as shown, the substantially curved wall can comprise a continuously curved wall segment. Providing a substantially curved wall can help bend the air stream as it passes from the air inlet opening 48 to the air outlet opening 46. Moreover, providing a continuously curved wall segment can reduce air flow resistance as the air stream travels from the air inlet opening to the air outlet opening of the duct. - Although not required, the substantially curved wall can optionally extend about the
pivot axis 68 such that the curved wall is substantially continuously spaced from a side of the adapter as the duct is pivoted relative to thepivot axis 68. For instance, to provide continuous spacing, the substantially curved wall can extend at a substantially constant radius about thepivot axis 68. Providing a substantially continuous spacing between the curved wall and the adapter can help reduce pinch points as the duct pivots relative to the adapter. - The
pivot structure 37 can be configured to be pivotally mounted to theadapter 50. In the illustrated example, the pivot structure comprises apivot pin 38 having a first end extending above thetop wall 44 a and a second end extending below thebottom wall 44 b. The first and second ends of thepivot pin 38 are adapted to be received in a corresponding one of a first set of pivot holes 54 a, 54 b provided in theadapter 50. As shown, theadapter 50 can also include a second set of pivot holes 56 a, 56 b to permit selective mounting of theduct 24 to the opposite side of theadapter 50. Thus, theduct 24 may be mounted for pivoting out from either side of theadapter 50 to allow customization of the air distribution apparatus to guide air in various directions. - It is contemplated that a wide range of
pivot structures 37 may be provided. For example, rather than apivot pin 38, the pivot structure may comprise one or more pivot apertures adapted to receive a pivot pin from the adapter. In further examples, both the adapter and the pivot structure of the duct may include apertures that may be aligned to receive a separate pivot pin therethrough. It is also contemplated that other structures, such as hinge mechanisms, or the like, may be employed. Moreover, while the illustrated pivot structure provides a fixed pivot point, it is also contemplated that the pivot structure may travel as the duct is pivoted relative to the adapter. For example, the pivot structure may be configured such that the pivot axis travels along a linear and/or arcuate path as the duct pivots relative to the pivot axis. - The duct may pivot relative to the adapter in incremental or continuous adjustments throughout a wide variety of angles. For example, the duct may be capable of pivoting from approximately 0° to approximately 180°. In further examples, the duct may be capable of pivoting from approximately 0° to approximately 120°. In still further examples, the duct may be capable of pivoting from approximately 0° to approximately 90°. In the illustrated example, the duct is capable of pivoting from approximately 0° to approximately 45°.
- Examples of ducts in accordance with the present invention can include at least one stop adapted to limit pivoting movement of the duct with respect to the housing. The stop may be adjustable such that the pivoting range of the duct with respect to the adapter may be adjusted to accommodate the preferences of a user. In further examples, the stop may be fixed such that the pivoting range of the duct is not adjustable, but predetermined when manufacturing the air distribution apparatus.
- In the illustrated embodiment, the duct includes an
extension stop 40 configured to define a maximum extended position of the duct with respect to theadapter 50. Although asingle extension stop 40 may be provided,FIG. 4 depicts afirst extension stop 40 provided on thetop wall 44 a and a second extension stop 42 provided on thebottom wall 44 b. Providing a first and second extension stop can reduce stress on the pivot structure due to bending moments that might otherwise develop with a single extension stop. As shown inFIG. 2B , the extension stops 40, 42 are adapted to interact with a surface of theadapter 50 to limit extension of the duct with respect to the adapter. Although not required, theadapter 50 may include a slot, such as the illustratedarcuate slot 60, adapted to receive theupper extension stop 40. Although not shown, the adapter may include a similar slot adapted to receive thelower extension stop 42. Providing slots may be beneficial in applications where the depth of theadapter 50 is increased to accommodate other aspects of the adapter, such as a latching structure as discussed more fully below. Theadapter 50 may also include an optional slot, such as an optionalarcuate slot 58, adapted to receive theupper stop 40 if thepivot structure 37 of the duct is mounted on the opposite side of theadapter 50. Although not shown, the adapter may also include a similar slot, opposed to thearcuate slot 58, adapted to similarly receive thelower stop 42 when the duct is mounted on the opposite side of theadapter 50. - The
duct 24 can also include aretraction stop 25 configured to define a maximum retracted position of theduct 24 with respect to theadapter 50. For example, as shown inFIG. 2A , theretraction stop 25 is adapted to interact with an outer surface of theadapter 50 to limit the extend to which theduct 24 may be retracted within theadapter 50. As further illustrated inFIGS. 2A and 2B , theretraction stop 25 can comprise a protrusion that extends outside of the adapter in both the retracted and extended positions. The illustrated extended protrusion can function as a handle to permit a user to apply force to the duct to pivot theduct 24 with respect to theadapter 50. - The
duct assembly 70 may also include a device adapted to encourage maintenance of a desired pivotal orientation of theduct 24 with respect to theadapter 50. In one example, the device can comprise a low friction material that provides an interference fit between the duct and the adapter. For instance, the low friction material may comprise a low friction polymer or the like. In further examples, the device can comprise a friction material to increase friction between the duct and the adapter. For example, as shown inFIG. 7 , the device comprises afriction material 66 adapted to provide a desired resistance to pivoting between theduct 24 and theadapter 50. The friction material can comprise a wide range of materials and structures to facilitate maintenance of the desired angular relationship. For instance, the friction material may comprise a felt material or other compressible material. In further examples, the friction material can comprise protrusions from one or both of the duct and adapter to provide a desired level of pivotal resistance. Moreover, complementary protrusions and recesses may be employed to provide discrete pivotal orientations. For example, one or more detents, grooves, or other recesses may be formed on one or both of the duct and adapter. One or more complementary dimples, ribs or other protrusions may be formed on the other or both of the duct and adapter. The recesses and protrusions may cooperate with one another at predetermined pivotal orientations to help maintain a predetermined angular relationship between the duct and adapter. Still further, the duct and adapter may be designed with an interference between at least portions of the duct and adapter to help maintain the desired orientation. The pivot structure can also be designed to inhibit undesirable rotation. For example, the pivot structure can be designed to require a minimum moment about the pivot axis before the duct pivots relative to the adapter. - The process of pivotally attaching the
duct 24 with respect to theadapter 50 to form theduct assembly 70 is illustrated inFIG. 7 . As shown, theoptional friction material 66 may be attached to an interior surface of the adapter such that the friction material engages a surface of theduct 24 once assembled. Next, thepivot structure 37 is attached to theadapter 50 to provide a desired pivotal relationship between theduct 24 and theadapter 50. For example, the first and second ends of thepivot pin 38 may be inserted in the first pair of pivot holes or the second pair of pivot holes. If thepivot axis 68 is desired to be located on the right side of theadapter 50, the first and second ends of thepivot pin 38 may be inserted in respective first and second pivot holes 54 a, 54 b of the first set of pivot holes. Alternatively, if thepivot axis 68 is desired to be located on the left side of the adapter, the first and second ends of thepivot pin 38 may be inserted in respective first and second pivot holes 56 a, 56 b of the second set of pivot holes. - In the illustrated embodiment, once assembled, the
duct 24 may pivot within a limited range with respect to theadapter 50 to change the direction of the air stream passing through theair outlet opening 46. For instance, as shown inFIGS. 2A and 2B , theduct 24 may be retracted alongretraction direction 43 b until theretraction stop 25 engages an outer edge of theadapter 50.FIG. 2A illustrates theduct 24 in the fully retracted position wherein the air outlet opening 46 faces a firstundiverted direction 46 a. In order to change the undiverted direction, a user may pull the handle (e.g., the retraction stop 25) to pivot theduct 24 with respect to thepivot axis 68 alongextension direction 43 a until the extension stops 40, 42 engage the respective slots in theadapter 50.FIG. 2B illustrates theduct 24 in the fully extended position wherein the air outlet opening 46 faces a secondundiverted direction 47 a. ComparingFIGS. 2A and 2B , the firstundiverted direction 46 a extends at an angle, for example about 45°, with respect to the secondundiverted direction 47 a. Accordingly, by way of the pivoting duct arrangement, the direction of the air stream may be changed by a predetermined angle, such as about 45°, by simply pivoting theduct 24 with respect to theadapter 50. Once the desired angle is achieved, the user may release the retraction stop 25 (e.g., handle) wherein thefriction material 66 will encourage maintenance of the desired angle between the duct and the adapter. Therefore, thefriction material 66 may maintain the duct at the fully retracted position, the fully extended position, or some position between the fully retracted and extended positions. - Duct assemblies in accordance with examples of the present invention may include an optional air diverter apparatus adapted to change the undiverted direction of air flowing from the air outlet opening. Air diverter apparatus may include a variety of structures adapted to change the air flow direction. For example, the air diverter apparatus can include a plurality of vanes adapted to move with respect to the duct. In one example, the vanes may each have a rotation axis, wherein the rotation axes are parallel with respect to one another. The vanes may be linked such that each vane rotates simultaneously about a corresponding rotational axis. In the illustrated embodiment, an
air diverter apparatus 80 is provided with a plurality ofvanes 26 that are fixedly mounted to arotation shaft 82. Thevanes 26 can therefore be arranged such that rotation of theshaft 82 results in corresponding simultaneous rotation of each of thevanes 26. As best shown inFIGS. 3 and 6 , thevanes 26 can comprise a plurality of disks that are attached at a predetermined angle relative to theshaft 82. Various angles can be selected depending on the particular application. In the illustrated embodiment, thevanes 26 are mounted at a 45° angle with respect to theshaft 82. In further examples, the vanes can be mounted at a 30° angle with respect to the shaft although other angles may be selected in further embodiments. With further reference toFIGS. 3 and 6 , theair diverter apparatus 80 can comprise anadjustment wheel 88 configured to selectively rotate theshaft 82. The wheel may be formed integrally with the shaft or may be nonrotatably attached to the shaft. In the illustrated example, theshaft 82 can be provided with a keyedportion 84 configured to be received in anaperture 90 of theadjustment wheel 88. Once the keyedportion 84 is received in theaperture 90, rotation of thewheel 88 will result in a corresponding rotation of theshaft 82. - The
air diverter apparatus 80 may also include a device adapted to encourage maintenance of a desired rotational orientation of thevanes 26 relative to theadapter 50. The device can comprise material or structures similar to the device described with respect to thefriction material 66 above. For example, the device can comprise a low friction material that provides an interference fit between theadjustment wheel 88 and an inside surface of theduct 24. The low friction material, for example, may comprise a low friction polymer or the like. In further examples, the device can comprise a friction material to increase friction between the duct and the adapter. For example, as shown inFIG. 6 , the device comprises afriction material 92 adapted to provide a desired resistance to pivoting between theadjustment wheel 88 and theduct 24. In the illustrated embodiment, thefriction material 92 can include a central aperture to permit passage of afirst pivot pin 86 a of therotation shaft 82. In further embodiments, thefriction material 92 may be provided without a central aperture. For example, thefriction material 92 may be located entirely on one side of thefirst pivot pin 86 a wherein less than half of thewheel 88 is engaged at one time. The friction material can comprise a wide range of materials and structures to facilitate maintenance of the desired rotational relationship. For instance, the friction material may comprise a felt material or other compressible material. - Assembly of the
air diverter apparatus 80 to theduct 24 is described with respect toFIG. 6 . Thefriction material 92, if provided, may be attached to an interior surface of theduct 24 adjacent afirst pivot hole 49 a in theduct 24. Thefirst pivot pin 86 a is inserted through theaperture 90 in theadjustment wheel 88. Theadjustment wheel 88 is then axially moved with respect to therotation shaft 82 until the key 84 of theshaft 82 is nonrotatably received in theaperture 90 of thewheel 88. Theair diverter apparatus 80 is then positioned within the air outlet opening 46 of theduct 24 with thefirst pivot pin 86 a received in thefirst pivot hole 49 a and asecond pivot pin 86 b received in asecond pivot hole 49 b. Once appropriately attached, the pivot pins 86 a, 86 b and the pivot holes 49 a, 49 b can permit infinite rotation of therotation shaft 82 about a rotation axis. Although not shown, the air diverter apparatus can also include at least one stop adapted to limit a rotational movement of the air diverter apparatus relative to the duct. - A user may adjust the
air diverter apparatus 80 by rotating thewheel 88 until a desired rotational orientation between thevanes 26 and theduct 24 is achieved. Once the wheel is released, thefriction material 92 may facilitate maintenance of the desired rotational relationship between thevanes 26 and theduct 24. Theair diverter apparatus 80, if provided, can therefore change the direction of air flowing through theair outlet opening 46. For example, a user may rotate the wheel wherein the direction of air flowing through the air outlet opening can fluctuate on either side of the undiverted direction by the angle between thevanes 26 and therotation shaft 82. For example, as mentioned previously, the illustrated embodiment includesvanes 26 oriented at approximately 45° with respect to therotation axis 82. Accordingly, in the retracted position shown inFIG. 2A , rotation of theadjustment wheel 88 can result in a diverted air path extending along a diverteddirection 46 b that is +45° from theundiverted direction 46 a. Theadjustment wheel 88 may be further rotated such that a diverted air path extends along another diverted 46 c direction that is −45° from theundiverted direction 46 a. Likewise, in the extended position shown inFIG. 2B , rotation of theadjustment wheel 88 can result in a diverted air path extending along a diverteddirection 47 b that is +45° from theundiverted direction 47 a. Theadjustment wheel 88 may be further rotated such that a diverted air path extends along another diverted 47 c direction that is −45° from theundiverted direction 47 a. Therefore, theair diverter apparatus 80 can either add to or subtract from the change in air direction achieved by pivoting the duct relative to the adapter. For example, theduct 24 may be pivoted 45° about thepivot axis 68 to the maximum extended position illustrated inFIG. 2B . Theadjustment wheel 88 of theair diverter apparatus 80 may then be rotated to change the air stream direction an additional 45° such that the final diverteddirection 47 b extends approximately 90° from the firstundiverted direction 46 a. Theadjustment wheel 88 of theair diverter apparatus 80 may be further rotated to subtract from the change in direction achieved by pivoting the duct relative to the adapter. For example, the adjustment wheel of theair diverter apparatus 80 may be rotated to reduce the change in air stream direction by 45° such that the final diverteddirection 47 c extends substantially parallel with respect to the firstundiverted direction 46 a. It will therefore be appreciated that pivoting the duct relative to the adapter and rotating the air diverter apparatus relative to the duct can achieve a wide variety of air diversion paths. For instance, as shown inFIGS. 2A and 2B , the air path can fluctuate between one maximum diverteddirection 46 c in the retracted position and another maximum diverteddirection 47 b in the extended position. - The
adapter 50, if provided, can be configured to be attached with respect to anopening 23 of anair distribution housing 22. For instance, as shown inFIG. 7 , the adapter may include one ormore latches 52 adapted to engage theouter wall 21 of theair distribution apparatus 20. In the illustrated embodiment, theadapter 50 includes twoupper latches 52 and two lower latches although more or less latches may be employed in further embodiments. Each latch can include aramp surface 51 and anabutment surface 53. To install theadapter 50, a rear end of the adapter is first inserted in theopening 23 of theair distribution housing 22. The adapter is further inserted untilshoulders adapter 50 engage an outer surface of theouter wall 21. Once the shoulders engage the outer wall, thelatches 52 snap behind theouter wall 21 such that theabutment surface 53 engages the rear surface of theouter wall 21 to trap theadapter 50 relative to thehousing 22. - Components of the
duct assembly 70 can comprise various materials or combinations of materials to provide sufficient structural integrity while minimizing the weight of the air distribution housing and costs of the materials to produce the housing. For example, theadapter 50,duct 24 and/or components of theair diverter apparatus 80 may be fabricated from materials including, but not limited to, a plastic, a metallic and/or a composite material or the like. - One or
more duct assemblies 70 in accordance with aspects of the present invention can be used with various air distribution housings. For example, the illustratedair distribution housing 22 is provided with afirst duct assembly 70 a, asecond duct assembly 70 b, athird duct assembly 70 c, and afourth duct assembly 70 d. Although fourduct assemblies - One or
more duct assemblies 70 in accordance with aspects of the present invention can also be positioned in a wide range of orientations with respect to the air distribution housing. For example, one or more of the duct assemblies may be provided on atop side 35 of the housing. In further examples, one or more duct assemblies may be positioned about a periphery of the air distribution housing. For example, one or more duct assemblies may be provided on aright side 34 and/or aleft side 36 of the housing. In the illustrated example, the first andsecond duct assemblies front side 30 of theair distribution housing 22 while the third andfourth duct assemblies rear side 32 of theair distribution housing 22. Arranging the duct assemblies on the front side and rear side can permit each duct assembly to direct air in a direction generally away from the respective front side or rear side and to further guide air in a direction substantially parallel with the respective front side or rear side. - For example, with reference to the
third duct assembly 70 c, the duct assembly may guide the air path along the firstundiverted direction 46 a extending generally away and perpendicular from therear side 32 of theair distribution housing 22. By adjusting theair diverter apparatus 80, in the retracted position, theduct assembly 70 c can deflect the air stream within a range from about +/−45° from the firstundiverted direction 46 a alongdirection 46 b (i.e., by deflecting the air stream about +45° with respect to the pivot axis 68) or alongdirection 46 c (i.e., by deflecting the air stream about −45° with respect to the pivot axis 68). - As further illustrated by the
fourth duct assembly 70 d ofFIG. 1 , theduct 24 may be pivoted outward within a range of about 0° to about +45° with respect to thepivot axis 68. As shown with reference to thefourth duct assembly 70 d the duct may be pivoted to the fully extended position to provide an air path extending along the secondundiverted direction 47 a that is about +45° from the firstundiverted direction 46 a. Therefore, in the fully extended position, the illustrated duct may guide the air path in a direction generally away from therear side 32 and generally toward theright side 34 of theair distribution housing 22 along the secondundiverted direction 47 a. By adjusting theair diverter apparatus 80, the duct may guide the air path in a direction generally away and perpendicular from therear side 32 along diverteddirection 47 c. Still further, theair diverter apparatus 80 can also be adjusted to guide the air path in a direction generally parallel to therear side 32 from theleft side 36 to theright side 34 of theair distribution housing 22 along diverteddirection 47 b. - The
rear side 32 of theair distribution housing 22 illustrates both the third andfourth duct assemblies rear side 32 from theleft side 36 to theright side 34 of the air distribution housing. It is contemplated that one or both of the duct assemblies may be reversed such that one or both of the duct assemblies act to guide the air path in a direction generally parallel to the rear side from the right side to the left side of the air distribution housing. For example, thesecond duct assembly 70 b is illustrated as being mounted such that the duct may guide the air path in a direction generally parallel to thefront side 30 from theright side 34 to theleft side 36 of theair distribution housing 22 along diverteddirection 47 b. - It is therefore contemplated that one or
more duct assemblies 70 may be mounted in various orientations to accommodate various environments. For example, all of theduct assemblies 70 may be mounted to guide the air path in a direction generally parallel to the respective side from the right side to the left side of the air distribution housing. In further embodiments, all of theduct assemblies 70 may be mounted to guide the air path in a direction generally parallel to the respective side from the left side to the right side of the air distribution housing. Still further, duct assemblies may be arranged such that at least one duct assembly can guide an air path in a direction generally parallel to a side from the left side to the right side while at least another duct assembly can guide an air path in a direction generally parallel to a side from the right side to the left side of the air distribution housing. - As shown in
FIG. 1 , eachduct air distribution housing 22 by way of anadapter 50. Providing theair distribution assembly 20 with an adapter can be beneficial to retrofit existing air distribution assemblies without replacement of the existing air distribution housing. Although not shown, each duct may also be configured to be directly pivotally connected to theair distribution housing 22 without the use of an adapter. Attaching the duct without an adapter can reduce the number of parts necessary for providing the air distribution apparatus. - Air distribution apparatus in accordance with the present invention can have a wide range of applications. As mentioned previously, examples of an air distribution apparatus can be provided for mounting to a wall surface of an interior area of a vehicle. For instance, the air distribution apparatus can be provided for mounting to a ceiling, side wall, floor or other surfaces of a vehicle. Moreover, air distribution apparatus herein may be used in a wide variety of vehicles. For example, vehicles incorporating one or more air distribution apparatus may comprise motorized or nonmotorized vehicles. Examples of vehicles can comprise recreational vehicles (RV), pull trailers or other vehicles. Certain vehicles can also comprise pop-out living spaces that may be collapsed during transportation and later deployed once parked at a desired location. In such examples, one or more air distribution apparatus can be mounted on a ceiling or other structure to selectively direct air into one or more of the pop-out living areas. For example, the air distribution apparatus may be mounted to a surface, such as a ceiling surface, wherein an air stream may be directed toward the front or rear of the main interior area of the vehicle. In addition, or alternatively, the air stream may be directed laterally toward one or more pop-out living areas of the vehicle.
- From the above description of the invention, those skilled in the art will perceive improvements, changes and modifications. Such improvements, changes and modifications within the skill of the art are intended to be covered by the appended claims.
Claims (20)
Priority Applications (6)
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AT05019684T ATE419984T1 (en) | 2004-09-09 | 2005-09-09 | AIR DISTRIBUTION DEVICE |
EP05019684A EP1634740B1 (en) | 2004-09-09 | 2005-09-09 | Air distribution apparatus |
AU2005209633A AU2005209633A1 (en) | 2004-09-09 | 2005-09-09 | Air distribution apparatus |
DE602005012194T DE602005012194D1 (en) | 2004-09-09 | 2005-09-09 | Air distribution device |
DK05019684T DK1634740T3 (en) | 2004-09-09 | 2005-09-09 | Air distribution apparatus |
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US11/215,094 US20060052050A1 (en) | 2004-09-09 | 2005-08-30 | Air distribution apparatus |
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- 2005-09-09 EP EP05019684A patent/EP1634740B1/en not_active Not-in-force
- 2005-09-09 AU AU2005209633A patent/AU2005209633A1/en not_active Abandoned
- 2005-09-09 DK DK05019684T patent/DK1634740T3/en active
- 2005-09-09 DE DE602005012194T patent/DE602005012194D1/en not_active Expired - Fee Related
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Also Published As
Publication number | Publication date |
---|---|
DE602005012194D1 (en) | 2009-02-26 |
ATE419984T1 (en) | 2009-01-15 |
DK1634740T3 (en) | 2009-04-14 |
AU2005209633A1 (en) | 2006-03-23 |
EP1634740A1 (en) | 2006-03-15 |
EP1634740B1 (en) | 2009-01-07 |
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