Mobile air conditioner

Information

  • Patent Grant
  • 11951798
  • Patent Number
    11,951,798
  • Date Filed
    Thursday, September 16, 2021
    3 years ago
  • Date Issued
    Tuesday, April 9, 2024
    8 months ago
Abstract
The present embodiments relate to an HVAC system which is externally mounted on a vertical surface of an RV, truck or bus. The desire is to eliminate, or at least substantially reduce, a potential leakage path wherein water may sit on an upper surface of a vehicle and due to seal degradation over long periods of time, may find a pathway in through the roof of the vehicle and to an interior thereof. By positioning the HVAC on a vertical surface, gravity works to move water downward and away from the HVAC system rather than allowing it to stagnate in an area around potential apertures through the outer skin or outer surface of the vehicle.
Description
BACKGROUND

Present embodiments relate to an air conditioning system which is useful with a recreational vehicle (“RV”) or truck. More specifically, present embodiments relate to heating, ventilation, and air conditioning (HVAC) systems, or alternatively air conditioning systems, which are mounted on a vertical surface of the RV or truck.


Currently HVAC systems, inclusive of mobile air conditioners, are typically mounted on the roof of an RV, truck (inclusive of buses and bus-type RVs). One downside of these mounting configurations is that the upper surfaces of these vehicles are sometimes flat which allows water to sit on the surface. Over time, mounting holes used to retain the HVAC system on the roof of the RV or truck can receive water as seal quality breaks down. It would be desirable to eliminate this source of leakage into the RV, truck or bus by positioning the HVAC system in such a manner as to reduce or eliminate this leakage from the upper surface.


It would be desirable to provide an air conditioning system that either maintains or improves current air conditioning performance while also reducing the potential for leaks.


The information included in this Background section of the specification, including any references cited herein and any description or discussion thereof, is included for technical reference purposes only and is not to be regarded subject matter by which the scope of the invention is to be bound.


SUMMARY

The present application discloses one or more of the features recited in the appended claims and/or the following features which alone or in any combination, may comprise patentable subject matter.


The present embodiments relate to an HVAC system which is externally mounted on a vertical surface of an RV, truck or bus. There is a desire is to eliminate, or at least substantially reduce, a potential leakage path, wherein water may sit on an upper surface of a vehicle and due to seal degradation near an HVAC system over long periods of time, may find a pathway in through the roof of the vehicle and to an interior thereof. By positioning the HVAC on a vertical surface, gravity works to move water downward and away from the HVAC system rather than allowing it to stagnate in an area around apertures through the outer skin or outer surface of the vehicle.


It may also be desirable to reduce interior and/or exterior noise from the HVAC system. It may also be desirable to reduce the physical size of the air conditioning system, if possible, while providing an easy to install system. The serviceability of the HVAC system should not be impacted while also controlling drainage of condensation, as well as the exhaust air movement. The HVAC system should have an interface for air conditioning ducting and also not be impacted by corrosion or dirt, which may have different affects due to this different mounting configuration.


According to some embodiments, a wall mount mobile air conditioner comprises a frame mount capable of connection to a wall of a recreational vehicle (RV), first and second brackets spaced apart to receive a frame, the frame having at least one curved edge, the at least one curved edge engaging a corresponding edge of a frame mount and allowing pivoting motion of the frame relative to the frame mount, a fastener extending from either the first bracket and the second bracket or the frame and extending through the other of the first bracket and the second bracket or the frame.


Optionally, the following features may be used alone with the wall mount AC or in combination with other features and the wall mount AC. The wall mount mobile air conditioner may further comprise a foam air box in the frame, the foam air box having a first portion and a second portion. The wall mount mobile air conditioner may further comprise a strap to capture the first and second portions together. The fastener may comprise a pin stud. The pin stud may extending from each of the first and second brackets to extend through the frame. The first and second brackets each may have a first arm and a second arm angled relative to the first arm. The first arm may be in a first plane and the second arm be in a second plane. Each of the first and second brackets connected to an RV at one of the first or second arm, and connected to the frame at the other of the first arm or second arm.


In some embodiments, a wall mount air conditioner may comprise a housing, a first pair of return air ducts and a second pair of discharge ducts extending horizontally from the housing, an evaporator air box, the first pair of return air ducts and the second pair of discharge ducts in flow communication with the evaporator air box, the evaporator air box being a first portion and a second portion which are retained in position by a strap, the housing having a shroud and a base, the housing and the base being oriented vertically.


In a further embodiment, a method of mounting an air conditioner comprises the steps of installing a frame mount, installing first and second brackets, pivoting an air conditioner frame on the frame mount from a first position to a second position, connecting the air conditioner frame to the first and second brackets in the second position.


In some embodiments, a mobile air conditioner may comprise a base pan wherein a plurality of air conditioning mechanicals are positioned, a compressor, an evaporator, a condenser, a fan, and an expansion valve defining the air conditioning mechanicals in the base, an air shroud disposed on the base pan, the air shroud enclosing the air conditioning mechanicals, a base extension extending from a surface of the base and configured to extend into an outermost substantially vertical surface of a recreational vehicle. At least one conditioned air duct connection and at least one return air duct connection within the base extension and through the base pan. At least one opening in one of the base pan or the air shroud, the at least one opening providing air flow to the condenser.


Optionally, various embodiments may also be utilized with the mobile air conditioner either alone or in combination of other embodiments. The mobile air conditioner may further comprise a rear camera window disposed in one of the shroud or the base pan. The mobile air conditioner may have two conditioned air duct connections for two zone conditioning. The mobile air conditioner wherein the air flow to the condenser is substantially horizontal. The mobile air conditioner may further comprise a return air flow from the condenser which is substantially vertical. The mobile air conditioner wherein the air flow to the condenser is substantially horizontal. The mobile air conditioner wherein a return airflow from said condenser is substantially horizontal. The mobile air conditioner may be powered by a 120V AC shore power source or a 12V DC source. The mobile air conditioner may be configured to be mounted on a rear surface of the recreational vehicle. The mobile air conditioner may having at least 20000 BTU cooling capacity. The shroud and the base pan may be fully separable or may be hingedly openable.


According to some embodiments, a mobile air conditioner may comprise a housing defined by a base pan and an air shroud, the housing configured to be connected to a vertical surface of an RV. A plurality of cooling mechanicals disposed within the housing, a frame capable of being connected to the RV or the housing, one of a pivot or catch disposed on said frame and the other of a pivot or catch disposed on or within the housing, and, the housing pivoting at the pivot and catch to rotate into an installation position for fastening.


According to some optional embodiments, the housing may have a duct aperture disposed in a vertical plane. The frame having a plurality of legs. One of the legs may have the pin or the catch. The housing has at least one frame or bracket where said pivot or catch is defined.


This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. All of the above outlined features are to be understood as exemplary only and many more features and objectives of the various embodiments may be gleaned from the disclosure herein. Therefore, no limiting interpretation of this summary is to be understood without further reading of the entire specification, claims and drawings, included herewith. A more extensive presentation of features, details, utilities, and advantages of the present invention is provided in the following written description of various embodiments of the invention, illustrated in the accompanying drawings, and defined in the appended claims.





BRIEF DESCRIPTION OF THE DRAWINGS

In order that the embodiments may be better understood, embodiments of a mobile air conditioning system will now be described by way of examples. These embodiments are not to limit the scope of the claims as other embodiments of a mobile air conditioning system will become apparent to one having ordinary skill in the art upon reading the instant description. Non-limiting examples of the present embodiments are shown in figures wherein:



FIG. 1 is a perspective view of an RV with a mobile air conditioner (HVAC) system;



FIG. 2 is an exterior perspective view of the HVAC system removed from the RV;



FIG. 3 is a lower perspective view of a bottom portion of the HVAC system;



FIG. 4. is a side view of an RV and the HVAC system;



FIG. 5. is a side schematic view of an alternate RV with rear mounted AC and ducting system;



FIG. 6 is a schematic view of a compressor refrigeration system;



FIG. 7 is a front perspective view of one embodiment of an HVAC system;



FIG. 8 is a rear perspective view of an illustrative HVAC system;



FIG. 9 is a schematic view of a mounting structure;



FIG. 10 is a perspective view of an alternate embodiment of a mobile air conditioner;



FIG. 11 is a side section view of the mobile air conditioner of FIG. 10; and



FIG. 11A is a detail view of the mobile air conditioner of FIG. 11;



FIG. 12 is a perspective view of a mobile HVAC which may be mounted on a vertical wall;



FIG. 13 is an alternate perspective view of the mobile HVAC of FIG. 12;



FIG. 14 is an exploded perspective view of the mobile HVAC of FIG. 12;



FIG. 15 is an alternative exploded perspective view of the mobile HVAC of FIG. 14;



FIG. 16 is a first side sequence view of the installation of the HVAC frame; and,



FIG. 17 is a second side sequence view of the installation of the HVAC frame.





DETAILED DESCRIPTION

It is to be understood that a mobile air conditioning system is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the drawings. The described embodiments are capable of other embodiments and of being practiced or of being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” or “having” and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. Unless limited otherwise, the terms “connected,” “coupled,” and “mounted,” and variations thereof herein are used broadly and encompass direct and indirect connections, couplings, and mountings. In addition, the terms “connected” and “coupled” and variations thereof are not restricted to physical or mechanical connections or couplings.


Referring now to FIGS. 1-17, a mobile air conditioning or HVAC system 30 is provided which is mounted on a vertical surface of a mounting location such as an RV, bus, truck, vehicle, non-mobile structure, or the like. The HVAC system, or mobile air conditioner, allows for positioning on a vertical surface of a vehicle so that potential leakage paths are eliminated or reduced, which may occur in prior art systems. The system utilizes specific mounting structures to allow for the positioning on the vertical surface. Likewise, the vertically mounted air conditioner is generally self-enclosed such that the components of the air conditioner are positioned within the housing, defined by a base and an air shroud and likewise, such structure is designed on control air flow to and from the interior of the mobile air conditioner.


Referring now to FIG. 1, a perspective view of an RV 10 is provided with the mobile air conditioner 30 shown on a rear vertical wall or surface 16 of the RV. As used herein, the term “recreational vehicle” (RV) refers to mobile homes, motor homes, travel trailers, fifth wheels, recreational vans, buses and the like. A recreational vehicle may be one type of mobile unit. It should also be understood by one skilled in the art that the instant embodiment may be utilized with stationary structures having roof-mounted air conditioning units and air conditioning ducts extending through the ceiling area of the structure. Likewise, the embodiments of the instant disclosure are also suitable for use in various water crafts having exterior air conditioning units and duct work passing through cavities or spaces between the roof and ceiling. The depicted RV 10 includes a drive and transmission, not shown, as well as a sidewall 12, a roof 14, and a rear wall 16. Alternatively however, the RV may be in the form of a non-powered, pull-behind camper, non-mobile structure, and watercraft.


On the rear surface 16 of the RV 10, a portion of the mobile air conditioner 30 is depicted. The mobile air conditioner includes the air conditioner 30 and may or may not, include ducting extending within the RV, for example below the roof 14 but above the ceiling below to provide conditioned air to the interior of the vehicle 10. In some embodiments, the ducting may be located below the ceiling. In embodiments where ducting is not utilized, the system may also include an air distribution box (not shown) behind the mobile air conditioner 30 within the interior of the RV. The mobile air conditioner 30 may be mounted in a variety of fashions, including but not limited to, fasteners passing through the rear surface 16, for example to or through structural members or through a template therein or combinations, for non-limiting example. With the mobile air conditioner 30 mounted on a vertical surface, the air flow entering and exiting may be horizontal through an opening in a vertical plane or, as shown in FIG. 10 may alternatively enter through a lower surface (vertically) and exit through a vertical surface in a horizontal manner (or angled manner). The air flow into and out of the mobile air conditioner 30 may vary depending on the location of the cooling mechanicals 50 therein and the description is not exhaustive.


Referring to FIG. 2, a perspective view of an illustrative mobile air conditioner 30 is shown removed from the RV 10. The mobile air conditioner 30 includes an air shroud 32 and a base 34, together defining a housing. In the example, the base 34 is closer to the RV 10 and the air shroud 32 is further. The base 34 may extend into the RV 10 for mounting and providing at least some amount of fluid communication between the mobile air conditioner 30 and any ducting or an HVAC supply grill, which may be on the interior of the RV 10. The base 34 may be of varying shapes and may be dependent upon the shape and size of ducting extending into the vehicle 10. The air shroud 32 may be of various shapes and according to the instant embodiment is generally rectangular having two parallel long sides 36 and two parallel short sides 37. The corners may be rounded or may be sharp edges and the surfaces may be smooth or textured, any of these features being within the ability of one skilled the art and related to design and aesthetic characteristics which may be desirable. The shape may be complimentary to a portion of the RV wall, in order to lower the profile, for example.


The base, or base pan, 34 may comprise a rim 40 which defines an interfacing portion with the air shroud 32 and may further comprise a base extension 42, which extends horizontally, as shown in FIG. 4, from the air shroud 32 and interfaces with a portion of the RV 10. The base extension 42 may extend inwardly through an outer boundary or periphery of the RV 10 in order to give the mobile air conditioner 30 a slim or low profile appearance. The base 34 may include an internal plate which connects to various mechanical components. The plate, which is hidden from view, may be flat or have structural strengthening corrugations or the like.


In some embodiments, the shroud 32 and the base 34 are separate structures such that the shroud 32 may be removed from the base 34 in order to access the internal components. Alternatively, in some embodiments, the two parts are hingedly connected so that they may be opened, without fully removing, in order to access the internal components within the housing. The hinge or other pivot structure may be one or more structures and may be located on any of the sides of the shroud 32 and base 34. In still other embodiments, the shroud 32 may also be pivoted open and removed. Other arrangements may be utilized to access the interior of the mobile air conditioning housing.


Additionally, the air shroud 32 or the rim 40 may comprise a plurality of vent apertures or openings 46 which allow air flow to enter or exit the interior of the mobile air conditioner 30 and provide either an exit or entrance for air which is engaging with a condenser therein. Further, the apertures 46, 47 may allow mechanical component heat to dissipate. According to the instant embodiments, and with additional reference to FIG. 1, air flow may be provided in various directions but one illustrative embodiment may provide air flow in to the condenser from the vertical sides of the mobile air conditioner 30 at apertures 46 and may exit from the condenser through the apertures 47 (FIG. 3). Additional apertures may be provided either on the base 34 or the air shroud 32 to provide inlet flow into the mobile air conditioner 30, or in other locations. It may be desirable to either provide a deflector for any holes located along the upper surface or edges of the mobile air conditioner 30 or to not provide apertures on the upper surfaces so that rain or other contaminants do not fall into the mobile air conditioner 30. Also, baffles and/or ducts may be used to control air movement through the air conditioner 30. Further, as some motor coaches exhaust in the rear of the RV, it may be desirable to filter air moving into the mobile air conditioner. A filtration assembly may be provided in the area of the air passing into the mobile air conditioner 30 before the air reaches a condenser.


Referring now to FIG. 3, a lower perspective view of the illustrative mobile air conditioner 30 is depicted. Along the lower edge of the air shroud 32 or the rim 40 are a plurality of apertures 47 which allow for air flow into the mobile air conditioner 30. However, the direction of air flow may be varied. Also, as shown, the air shroud 32 may have a shape to engage or cover the base 34. While holes 47 are shown on the base 34, they may also be located on the air shroud 32. Further, the outer surface is shown with a flat surface, but may also have holes for ventilation, or the like. Likewise, the outer surface may be contoured, for example to match or better approximate the wall of the RV.


Additionally, as best shown in this view, the mobile air conditioner 30 may have a window 52 wherein a camera may be located for rear view for the driver during parking or other scenarios where a rear camera is helpful with a large vehicle.


Referring now to FIG. 4, a side view of the RV 10 and the mobile air conditioner 30 is depicted. In this view, and with reference partially to FIGS. 2 and 3, the base extension 42 is better shown extending into the rear wall 16 of the RV 10. Accordingly, when viewed from the side or at an angle, the majority of the base extension 42 is not visible to a user and therefore gives the mobile air conditioner 30 a low profile appearance relative to the rear wall 16 of the vehicle 10. The base extension 42 may also provide a location of positioning of at least some mechanical components used for cooling rather than solely being located within the periphery of the base 34 and air shroud 32.


Referring now to FIG. 5, an illustrative side schematic is depicted of an RV 100. The RV 100 is a different type of RV than the RV 10 shown in previous views. The instant illustrative embodiment provides an RV which is towable rather than the self-propelled bus or coach, type RV shown in the first embodiments. However, the instant embodiment provides the mobile air conditioner 30 as again mounted on a rear surface of the RV 100, as shown. Further, the schematic view provides a schematic duct 150 which extends through the RV 100 and is utilized to supply and/or return conditioned air to the mobile air conditioner 30 at the rear of the RV 100. In some embodiments, a port at the rear of the RV 100 may have a register wherein return air from the interior of the RV 100 returns to the mobile air conditioner 30. In such embodiment, the duct 150 may be used to only to supply conditioned air to the RV 100. The instant embodiment also provides that an optional second mobile air conditioner 130 may also be used depending on the amount of conditioned air needed, i.e. capacity, to cool the RV 100. Accordingly, the instant embodiments may have one or more mobile air conditioners 30, 130 according to the scope of the instant claims.


The mobile air conditioners 30, 130 are both located on generally vertical surfaces of the RV 100 and the forward mobile air conditioner 130 may be positioned within a decorative cap which is common in larger mobile RVs. Accordingly, the mobile air conditioners may be externally positioned or may be covered.


Referring now to FIG. 6, a schematic view of a compression refrigeration system 50 is depicted. Starting at the top of the drawing, a compressor 220 is depicted. The compressor 220 may be connected to a motor which drives the rotation or movement of the compressor 220 in order to compress a refrigerant. The compressor 220 may be a single speed, multi-speed, or variable speed compressor. Further, the compressor 220 may be a screw-type or may be a piston-cylinder type or various other types. The compressor 220 forces the compressed refrigerant along the schematic view toward a condenser 200. The condenser 200 may also comprise a cooling fan 202 which blows ambient air across a plurality of fins and/or coils which are in heat transfer communication with the refrigerant. The cooling fan 202 moves air across these fins and/or coils of the condenser 200 in order to reduce the temperature of the refrigerant. The refrigerant continues toward an expansion valve 204 which reduces the pressure of the refrigerant and then further on to an evaporator 240. A fan 208 may draw air from an interior of the RV 10 or other enclosed volume across the fins and/or coils of the evaporator 240 and return the conditioned air to the vehicle interior. At this time, the refrigerant is of a lower pressure and temperature such that the air blowing across coils carrying the refrigerant is cooled and returns into the enclosed space of the RV 10 as a conditioned, cooled air which is comforting to the users and of decreased humidity.


After moving through the evaporator 240, the refrigerant returns to the compressor 220. At some position along the flow path of the refrigerant, a tank or other volume may provide a reservoir (not shown) for the refrigerant, according to some embodiments. This option merely is illustrative and very general of the operation of an air conditioner which may be utilized in any of the embodiments described. Further, variations of the described components of the system may also be implemented and be within the scope of the instant embodiments.


Referring now to FIG. 7, a front perspective view of an embodiment of the mobile air conditioner 30 is depicted having a plurality of cooling mechanicals that form the example refrigeration cycle. The description of the refrigerant cycle is provided with regard to an embodiment. The air shroud 32 is shown having an alternative shape and further in transparent nature so that the interior components, which are illustrative, may be described. This view depicts a condenser assembly 200 which is utilized to direct air through condenser coils which are part of the condenser assembly 200 and reduce heat of the refrigerant.


Within the condenser assembly 200 are a plurality of fans 202, which pull ambient air into the mobile air conditioner 30 and across the plurality of condenser coils of the condenser assembly 200 before exhausting the air from the mobile air conditioner 30. The outside air may be pulled in a plurality of manners. For example, the apertures 46, 47 shown in FIGS. 2 and 3 may be utilized. Alternatively, the instant device utilizes apertures 146, 147 to provide air into and out of the mobile air conditioner 30.


Also shown within the mobile air conditioner 30, is at least one compressor 220. The compressor 220 contains a reservoir of refrigerant and utilizes a motor to power the compression action of the refrigerant, which is pumped to the condenser assembly 200. The compressor 220 may be defined by a plurality of types of devices including reciprocal compressors with piston cylinder structures, screw or axial rotating compressors or other types. Further, the motor for the compressor 220 may be a single speed or may be variable speed to further control the refrigerant flow. After the refrigerant flows from the compressor 220 through the condenser assembly 200, the refrigerant returns to an expansion valve 230 to reduce the pressure of the cooler refrigerant exiting the condenser assembly 200. After passing through the expansion valve 230, the pressure of the refrigerant is reduced some amount before it travels to an evaporator assembly 240. The evaporator assembly 240 may further comprise at least one fan 246 which is utilized to move air across the evaporator coils 248 (FIG. 8) and either push and/or pull air through the ducting of the RV 10. In the instant embodiment, two fans 246 are utilized and the fans 246 may have one or more motors so that the fans either work together or may be utilized independently of one another to increase functionality. The evaporator assembly 240 may comprise one or more fans 246 which are in fluid communication with air flow from within the RV via ducts and duct apertures 242, 244. These may represent outbound flow from the mobile air conditioner 30 or may represent both of supply and return air to the mobile air conditioner 30, and specifically the evaporator assembly 240. The evaporator assembly 240 also comprises a plurality of coils through which the refrigerant flows and air flow pulled from the interior or the RV passes over the evaporator coils 248 (FIG. 8) so that the air is cooled for returning back to the interior of the RV through the ducting. The duct apertures 242, 244 are arranged in a vertical plane and allow air flow movement in a horizontal direction.


The mobile air conditioner 30 may also have a controller 250 which is mounted in the base 34 or air shroud 32 or alternatively, may be mounted externally from the system. The controller 250 may provide control functionality for the fans 202 of the condenser assembly 200, the motor associated with the compressor 220, and the one or more motors associated with the fans 246 of the evaporator assembly 240. A controller may also work with wired and wireless communication modules, directly or indirectly, for communication with dedicated thermostat controls, smart device control, or control from remote communication via internet.


The refrigerant may be of various types. For example, some refrigerants which may be utilized include R-11 and R-12. HCFCs such as R-22, HFCs R-134a, R600a, R1234yf, and/or R1234e which is used in many cars have replaced most CFC use. HCFCs in turn are being phased out under the Montreal Protocol and replaced by hydrofluorocarbons (HFCs), such as R-410A, which lack chlorine. Still further, newer refrigerants may include supercritical carbon dioxide, known as R-744. These have similar efficiencies compared to existing CFC and HFC based compounds, and have lower global warming potential. These are merely examples however as other refrigerants may be used.


Referring now to FIG. 8, a perspective view of the mobile air conditioner of FIG. 7 is depicted from the rear of the mobile air conditioning system 30. In this view, the opposite side of the mobile air conditioner 30 is depicted and the evaporator assembly 240 is shown with the adjacent evaporator coils 248 adjacent to the fans 246. The coils receive refrigerant from the expansion valve 230 and air is pulled from the interior of the vehicle over the coils and through the ducts 242, 244 to return into the RV 10 conditioned and cooler air which is desirable within the RV 10. Also shown extending about the evaporator assembly 240 is an insulating layer 260 which decreases the interaction between the air flow for the condenser and the cool air of the conditioned air in flow communication with the interior of the RV 10.


Referring now to FIG. 9, a schematic view of a mounting structure is provided. A frame 11 is shown which represents mounting structures on an RV 10 (FIG. 1). A bracket 13 is provided and connected to the frame 11. The bracket 13 may be generally C-shaped, as shown but other shapes may also be used. The bracket 13 is connected to the frame 11 to support the mobile air conditioner 30. The bracket 13 has an arm having a pin or pivot 31 or catch 15 at an upper end thereof which receives the other of a pin or pivot 31 or catch 15, or other member, which may extend from the mobile air conditioner 30. In some embodiments, the pin 31 or catch 15 may be reversed amongst the bracket 13 and RV 10. The mobile air conditioner 30 is shown generically as a box for purpose of this schematic but the pin 31 may extend from an interior frame of either the base 34 or the air shroud 32. The pin 31 is seated within the catch 15 and a crane or hoist may be utilized to make this positioning movement during manufacture or installation. Once the pin 31 is seated, the mobile air conditioner 30 can pivot into a position for bolting at the bottom of bracket 13. At the bottom of the bracket 13 may be a plurality of fastening holes which are aligned with the fastening holes of the mobile air conditioner 30. Upon alignment, fasteners may be used to seat the mobile air conditioner 30 in position. The duct work, for example duct 150 (FIG. 5), may include a seal material which positions in sealing arrangement with the mobile air conditioner 30 once the pin 31 is positioned in the catch and the mobile air conditioner 30 is pivoted to align the fastening holes with the bracket 13.


With reference now to FIG. 10, a rear perspective view of an alternate embodiment of a mobile air conditioner 30 having a housing defined by the air shroud 332 and the base or base pan 334. The embodiment provides a grill or other opening 346 located along the bottom for intake of air into the interior of the housing. The air is represented by the double line arrows and the air may be utilized by the condenser for heat exchange, as previously described. A grill or other opening 347 may be located on a rear surface to allow airflow to exit from within the housing. The grill or opening 347 is shown in the air shroud 332 and the openings 346 may be located in the base pan 334. However, the locations of the openings may be dependent upon the direction of the air flows entering and exiting, as previously discussed.


Additionally shown in this embodiment is an RV frame or bracket 311 which may be located on one of the RV 10 or the mobile air conditioner 30 and an alternate frame or bracket 313 for example on the mobile air conditioner 30. The RV frame 311 may include fasteners 325 which extend through attachment apertures 327 of the mobile air conditioner 30. The fasteners 325 may be defined by screws, rivets, threaded studs, press-fit studs, or other structures which can connect two elements. Alternatively, the fasteners 325 may also be located on the mobile air conditioner 30 and extend through apertures 327 in the RV frame 311.


With reference now to FIGS. 11 and 11A, side section view and a detail view are provided of the mobile air conditioner 30 of FIG. 10. The mobile air conditioner 30 of the instant embodiment is also pivoted into position for installation. Whereas the previous embodiment of FIG. 9 is pivoted into position at the upper end of the air conditioner, the instant embodiment is pivoted near a lower end of the mobile air conditioner 30.


In the instant embodiment, the RV 10 may include a frame member or other structure 333 having a pin or pivot 331. The pivot 331 engages a catch 315 which is formed within the air conditioner 30, for example on frame 313 or separate therefrom, so that during installation, the pivot 331 supports the catch 315. For example, a crane or hoist may be used to position and lower the air conditioner 30 onto the pivot 331 so that a surface of the catch 315 is seated on a corresponding surface of the pivot 331. As with the previous embodiment, the air shroud 332 and base pan 334 may be installed after the mobile air conditioner 30 is mounted to the RV. While the present embodiment provides separate RV frames or brackets 311 and 333, these may alternatively be formed by a single part. Likewise, one or more frames or brackets 333, 335 may be used in the housing of the mobile air conditioner 30 for support and connection to the RV 10.


Referring now to FIG. 12, a further embodiment of a mobile air conditioner 430 is provided and as with previous embodiments the air conditioner may also be a heating ventilation and air conditioning (HVAC) system. The upper perspective view shows a shroud assembly 428 defined by a shroud 432, a base 434, and optionally a base extension 442. The base 434 and the base extension 442 may be formed independently and connected or may be formed as a single structure. The shroud 432 is connected to the base 434 wherein the plurality of cooling mechanicals 450 (FIG. 13) are located. The shroud 432 and the base 434 may also be formed separately and/or may be hingedly connected during manufacture or installation.


On a rear surface of the shroud 432, a shroud grill 453 may be located for ventilation of a condenser, expansion valve, compressor and/or other cooling mechanicals. Above the grill 453 is a slot 455 wherein a clearance light, brake light or the like luminaire may be located. Such light may, for example, may be a light emitting diode, OLED, or some other type in non-limiting embodiments.


Extending from a forward side of the mobile air conditioner 430 are a plurality of ducts 470. The depicted embodiment provides four ducts that are positioned in a lateral direction across an upper area of the base extension 442. While the ducts 470 extend across the top of the mobile air conditioner 430, the ducts 470 may alternately extend at a differing height or elevation of the device. Further, while the ducts also extend laterally, they may also be arranged in alternate configurations. The laterally outward ducts may be, for example, return ducts 472, which return air from the air conditioned space, in the RV for example, to the air conditioner 430. The inward or centrally located ducts 474 may be, for example, discharge or supply ducts 474, which push air to the air conditioned space in the RV. Further, while four ducts are shown in this example, this is an example and other numbers, shapes, or sizes of ducts may be utilized to supply and return air to the RV.


As in previous embodiments, some portion of the mobile air conditioner 430 may be disposed through or within a vertical wall of a vehicle 10, for non-limiting example, connected to a frame of a recreational vehicle RV. In the depicted example, the ducts 472, 474 and a portion of the base extension 442 and/or base 434 may extend through the wall of the RV 10.


With reference now to FIG. 13, a second perspective view shown from an angle opposite that of FIG. 12. The base 434 and base extender 442 are shown with an opening 441 revealing some of the cooling mechanicals 450 within the base 434 and shroud 432.


The view also shows structures which allow for connection of the mobile air conditioner 430 to a generally vertical wall of the vehicle. For example, near the bottom edge of the opening, a frame mount 433 is shown. The frame mount 433 is a member that is connected to structural frame members of the RV and extends horizontally. The frame mount 433 may comprise various shapes and in some embodiments may be channel shaped.


Disposed near ends of the frame mount 433 are first and second brackets 413a, 413b which in some examples are also connected to the RV. The brackets 413a, 413b and the frame mount 433 may be installed in or to the RV structural members and subsequently, the HVAC frame 435 is pivotally supported by the frame mount 433 so that the frame 435 and remainder of the mobile air conditioner 430 can pivot forward. In this forward position, the frame 435 may be connected to the brackets 413a, 413b and retained in position. In this way, there are three structural supporting engagements between the frame 435 of the mobile air conditioner 430 and the RV.


With reference now to FIG. 14, an exploded perspective view of the mobile air conditioner 430 is shown. In the embodiment shown, the shroud 432 and base 434 are shown on at the left side of the Figure.


The base extender 442 is shown having duct couplings 476 which extend from the base 434 or the base extender 442. The duct couplings 476 correspond in size and location to the supply and return ducts 470 previously described. The duct couplings 476 may be connected directly or indirectly to the evaporator air box 460 and ducts 470.


Spaced from the duct couplings is an evaporator air box 460 which is formed of a first portion 462 and a second portion 464, according to some embodiments. In some non-limiting embodiments, the air box 460 may be formed of foam, such as an expanded polypropylene (EPP) foam. The first and second portions 462, 464 may be formed with a male/female feature or other features to aid in alignment and joining together of the two portions 464, 464. The depicted air box 460 embodiment for example includes an upper portion 462 and a lower portion 464 which when joined along adjacent edges define a cavity or an enclosure 466. The evaporator air box 460 may include duct components 478 which are aligned with the duct couplings 476 within the shroud assembly 428. When the air box portions 462, 464 are placed together, the interior cavity 466 is defined which forms at least one plenum which is in fluid communication with the ducts 470 by way of the intervening duct couplings 476.


Within the evaporator air box 460 may be the evaporator 440. Return air enters the evaporator air box 460 through ducts 472 and passes through the evaporator 440 to condition the air. After conditioning, the conditioned air is moved through the supply ducts 474 and moved back into the RV.


The first portion 462 and the second portion 464 may have adjacent edges which provide an airtight, or nearly airtight, connection. For example, one of the first or second portions 462, 464 may have a tongue and the other of the first or second portions may have a cooperating groove. The tongue and groove may engage one another about the perimeter of the evaporator air box 460. Other joining structures may be utilized, which minimizes air leakage. The first portion 462 and the second portion 464 may be formed of various materials and in some embodiments may be formed of a molded foam.


As one skilled in the art will also understand, the evaporator air box 460 also defines the plenum wherein a return air flow enters the air box 460 and wherein the supply air flow exits. The air flows may maintain separation and guidance by one or more interior walls within the evaporator air box 460. The walls may be used to separate the supply air of the supply ducts 474 from the return air of the return ducts 472.


Also shown within the evaporator air box 460 is the evaporator 440 which conditions the return air before supplying the conditioned air back into the living areas of the vehicle or RV.


Above the evaporator air box 460 is a strap 479 that may be used to retain the upper and lower air box portions 462, 464 together. The strap 479 is generally U-shaped with feet that may be attached to a frame 435, to the vehicle or RV, or to the interior of the air shroud assembly. In the embodiment depicted, the feet may include fastener holes or other fastening structure.


Below the evaporator air box is the frame 435. The frame 435 may be defined by one or more structural members 436. For example, in the instant non-limiting embodiment, the frame 435 is defined by an upper frame member, a lower frame member, a first side frame member, and a second side member. The shape is generally three dimensional rectangular. Other shapes may be formed to fit within the shroud 432 and base 434.


The frame members 436 may have various shapes and weight saving relief apertures. The evaporator air box 460 may be supported by the frame 435 below, or the frame 435 may be sized so that the evaporator air box 460 may fit within the frame 435. In either embodiment, the duct components 478 should be in flow communication with the duct couplings 476. Further, when assembled, the duct components 478 of the evaporator air box 460 may also be in flow communication with the ducts 470. Accordingly, for ease of construction and reliability, but not a mandatory requirement, the duct components 478, the duct couplings 476, and the ducts 470 may be aligned providing a linear air flow path.


Referring now to FIG. 15, the exploded perspective view is shown from the opposite side of FIG. 14. In this view, the grill 453 is exploded and additionally, a lower grill 459 or register is shown exploded. Between the two registers, a damper plate 457 is shown. The damper plate 457 may be actuated to introduce fresh air into the air shroud assembly 428 and into the air flow paths for fresh air in the air shroud assembly 428. Alternately, the damper plate 457 may be on the return air side of the system in order to remove hot air from the interior of the RV and cool the RV faster. In a further alternative, the plate 457 may not have fluid communication with the air flow of the conditioned air, but instead may define a transition plate wherein a backup camera and a light may be located. The light may illuminate the area behind the RV so the camera video is clearer and illuminated for the driver.


Referring now to FIGS. 16 and 17, two sequence views are depicted which show support and connection of the frame 435 from the RV. With first reference to FIG. 16, the frame mount 433 is depicted and is configured for connection to an RV structural member, for example a horizontal support member (not shown). The frame mount 433 includes a curved structure, radiused or rolled upper edge 437 upon which a corresponding frame edge 447 is disposed. The curved upper edge 437 provides a location for seating of the frame 435. The frame 435 may comprise a complementary edge 447 with similar radius to the upper edge 437 of the frame mount 433 so that the frame 435 fits on and engages frame mount 433, and further is capable of pivoting on the frame mount 433 between the position shown in FIG. 16 and the position shown in FIG. 17. Accordingly, the engagement of the frame mount 433 and frame 435 at edges 437, 447 defines a pivot axis for pivoting of the frame 435 into is mounted position.


Also shown in FIG. 16, the brackets 413a, 413b are also formed, in some non-limiting embodiments in an L-shape. The laterally outer legs 1413a, 1413b of the L-shape may be connected to vertical members of the RV support. The inward portions 1415a, 1415b of the L-shape may each include threaded fasteners 415. The threaded fasteners 415 may extend through mating portions of the frame 435 such that the threaded fasteners 415 may extend through apertures 417 of the frame 435. A nut (not shown) may be positioned on the threaded fastener 415 in order to retain the frame 435 in position against the brackets 413a, 413b. In other embodiments, a threaded fastener may extend from frame 435 and through an aperture in the brackets 413a, 413b. In some non-limiting examples, the fastener 415 may be a pin stud and may be threaded or unthreaded and fastened by a nut or other retaining structure.


Additionally, the frame mount 433 is shown. In some embodiments, the frame mount is U-shaped and the in the example, non-limiting view shown, left leg of the frame mount is taller than the right leg. The taller leg comprises the curved upper edge 437 which supports the frame 435 for pivoting.


With reference to FIG. 17, the frame 435 is rotated forward toward the brackets 413a, 413b. The frame 435 is still supported from below by the frame mount 435. Further, the threaded fasteners 415 extend toward and nearly through the frame 435 so that a nut may be applied to each threaded fastener 415. Once the frame 435 is fully rotated forward, the frame 435 and the brackets 413a, 413b will be engaged and the fasteners may be fastened. The nuts and fasteners retain the frame 435 against the brackets 413a, 413b and to the vehicle 10. Further, the frame 435 is supported from below by the mount 433.


Various installation methods may be used, but in some embodiments, the frame mount 435 and brackets 413 may be installed. Next the base 434, and base extender 442 if used, may be installed. After this, in some embodiments, the frame 435 and cooling mechanicals may be installed on the base 434. After making electrical connections, the shroud 432 may then be installed.


While several inventive embodiments have been described and illustrated herein, those of ordinary skill in the art will readily envision a variety of other means and/or structures for performing the function and/or obtaining the results and/or one or more of the advantages described herein, and each of such variations and/or modifications is deemed to be within the scope of the invent of embodiments described herein. More generally, those skilled in the art will readily appreciate that all parameters, dimensions, materials, and configurations described herein are meant to be exemplary and that the actual parameters, dimensions, materials, and/or configurations will depend upon the specific application or applications for which the inventive teachings is/are used. Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific inventive embodiments described herein. It is, therefore, to be understood that the foregoing embodiments are presented by way of example only and that, within the scope of the appended claims and equivalents thereto, inventive embodiments may be practiced otherwise than as specifically described and claimed. Inventive embodiments of the present disclosure are directed to each individual feature, system, article, material, kit, and/or method described herein. In addition, any combination of two or more such features, systems, articles, materials, kits, and/or methods, if such features, systems, articles, materials, kits, and/or methods are not mutually inconsistent, is included within the inventive scope of the present disclosure.


All definitions, as defined and used herein, should be understood to control over dictionary definitions, definitions in documents incorporated by reference, and/or ordinary meanings of the defined terms. The indefinite articles “a” and “an,” as used herein in the specification and in the claims, unless clearly indicated to the contrary, should be understood to mean “at least one.” The phrase “and/or,” as used herein in the specification and in the claims, should be understood to mean “either or both” of the elements so conjoined, i.e., elements that are conjunctively present in some cases and disjunctively present in other cases.


Multiple elements listed with “and/or” should be construed in the same fashion, i.e., “one or more” of the elements so conjoined. Other elements may optionally be present other than the elements specifically identified by the “and/or” clause, whether related or unrelated to those elements specifically identified. Thus, as a non-limiting example, a reference to “A and/or B”, when used in conjunction with open-ended language such as “comprising” can refer, in one embodiment, to A only (optionally including elements other than B); in another embodiment, to B only (optionally including elements other than A); in yet another embodiment, to both A and B (optionally including other elements); etc.


As used herein in the specification and in the claims, “or” should be understood to have the same meaning as “and/or” as defined above. For example, when separating items in a list, “or” or “and/or” shall be interpreted as being inclusive, i.e., the inclusion of at least one, but also including more than one, of a number or list of elements, and, optionally, additional unlisted items. Only terms clearly indicated to the contrary, such as “only one of” or “exactly one of,” or, when used in the claims, “consisting of,” will refer to the inclusion of exactly one element of a number or list of elements. In general, the term “or” as used herein shall only be interpreted as indicating exclusive alternatives (i.e. “one or the other but not both”) when preceded by terms of exclusivity, such as “either,” “one of,” “only one of,” or “exactly one of.” “Consisting essentially of,” when used in the claims, shall have its ordinary meaning as used in the field of patent law.


As used herein in the specification and in the claims, the phrase “at least one,” in reference to a list of one or more elements, should be understood to mean at least one element selected from any one or more of the elements in the list of elements, but not necessarily including at least one of each and every element specifically listed within the list of elements and not excluding any combinations of elements in the list of elements. This definition also allows that elements may optionally be present other than the elements specifically identified within the list of elements to which the phrase “at least one” refers, whether related or unrelated to those elements specifically identified. Thus, as a non-limiting example, “at least one of A and B” (or, equivalently, “at least one of A or B,” or, equivalently “at least one of A and/or B”) can refer, in one embodiment, to at least one, optionally including more than one, A, with no B present (and optionally including elements other than B); in another embodiment, to at least one, optionally including more than one, B, with no A present (and optionally including elements other than A); in yet another embodiment, to at least one, optionally including more than one, A, and at least one, optionally including more than one, B (and optionally including other elements); etc.


It should also be understood that, unless clearly indicated to the contrary, in any methods claimed herein that include more than one step or act, the order of the steps or acts of the method is not necessarily limited to the order in which the steps or acts of the method are recited.


In the claims, as well as in the specification above, all transitional phrases such as “comprising,” “including,” “carrying,” “having,” “containing,” “involving,” “holding,” “composed of,” and the like are to be understood to be open-ended, i.e., to mean including but not limited to. Only the transitional phrases “consisting of” and “consisting essentially of” shall be closed or semi-closed transitional phrases, respectively, as set forth in the United States Patent Office Manual of Patent Examining Procedures.


The foregoing description of methods and embodiments has been presented for purposes of illustration. It is not intended to be exhaustive or to limit the invention to the precise steps and/or forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. It is intended that the scope of the invention and all equivalents be defined by the claims appended hereto.

Claims
  • 1. A wall mount mobile air conditioner, comprising: a frame mount configured to be connected within an exterior wall of a recreational vehicle (RV);first and second brackets spaced apart from the frame mount and disposed opposite one another to receive a frame of said mobile air conditioner;said frame mount having at least one curved edge defining a pivot, said at least one curved edge engaging a corresponding curved edge of said mobile air conditioner frame and allowing pivoting motion of said frame and said mobile air conditioner relative to said frame mount at least partially into said exterior wall said corresponding curved edge of said mobile air conditioner frame located toward a lower end of said frame;a fastener extending from either the first bracket and the second bracket or the frame and extending through the other of the first bracket and the second bracket or the frame.
  • 2. The wall mount mobile air conditioner of claim 1, further comprising a foam air box in said frame, said foam air box having a first portion and a second portion.
  • 3. The wall mount mobile air conditioner of claim 2 further comprising a strap to capture the first and second portions together.
  • 4. The wall mount mobile air conditioner of claim 1, said fastener comprising a pin stud.
  • 5. The wall mount mobile air conditioner of claim 4, said pin stud extending from each of said first and second brackets to extend through said frame.
  • 6. The wall mount mobile air conditioner of claim 1, said first and second brackets each having a first arm and a second arm angled relative to the first arm.
  • 7. The wall mount mobile air conditioner of claim 6, said first arm being in a first plane and said second arm being in a second plane.
  • 8. The wall mount mobile air conditioner of claim 6, each of said first and second brackets connected to an RV at one of said first arm or said second arm, and connected to said frame at the other of said first arm or said second arm.
CLAIM TO PRIORITY

This non-provisional patent application claims priority to and benefit of, under 35 U.S.C. § 119(e), U.S. Provisional Patent Application No. 63/175,304, filed Apr. 15, 2021. This non-provisional patent application is also a continuation-in-part of U.S. National Stage Entry application Ser. No. 17/440,104, filed the same day as this application, which claims priority to and benefit of PCT Patent Application No. PCT/IB2020/052438, filed Mar. 17, 2020, which claims priority to and benefit of U.S. Provisional Patent Application No. 62/819,711, filed Mar. 18, 2019, all of which is incorporated by reference herein.

US Referenced Citations (245)
Number Name Date Kind
2178811 Sateren Nov 1939 A
2233102 Kucher Feb 1941 A
2723538 Heidorn et al. Nov 1955 A
2870614 Renner et al. Jan 1959 A
2930556 Horlacher Mar 1960 A
2977043 Scheldorf Mar 1961 A
3220212 Fordsmand Nov 1965 A
3246836 Ayling Apr 1966 A
3250461 Parker May 1966 A
3292884 Scheldorf Dec 1966 A
3300125 Winkler Jan 1967 A
3396908 Vind Aug 1968 A
3444854 Fraim May 1969 A
3493168 Valbjorn Feb 1970 A
3672349 Derringer Jun 1972 A
3685577 Goodgion et al. Aug 1972 A
D226381 Harty, Jr. Feb 1973 S
3719058 Waygood Mar 1973 A
3724442 Gurney et al. Apr 1973 A
3727537 Harty, Jr. Apr 1973 A
3777506 Hergatt et al. Dec 1973 A
3836290 Carter Sep 1974 A
3855814 Eubank Dec 1974 A
3857652 Thayer Dec 1974 A
3865182 Blossom Feb 1975 A
3887304 Otaki et al. Jun 1975 A
3896634 Nagele et al. Jul 1975 A
3906740 Thomas Sep 1975 A
3973939 Abbott Aug 1976 A
3984224 Dawkins Oct 1976 A
3996762 Calme et al. Dec 1976 A
4045074 Howard Aug 1977 A
4143902 Johnstone Mar 1979 A
4192542 Hill Mar 1980 A
4213309 Pifer Jul 1980 A
4217764 Armbruster Aug 1980 A
4567734 Dankowski Feb 1986 A
D284025 Armstrong May 1986 S
4622831 Grupa Nov 1986 A
4628702 Boxum Dec 1986 A
4641502 Aldrich et al. Feb 1987 A
4662350 Mossbach May 1987 A
4672818 Roth Jun 1987 A
4674294 Agaro Jun 1987 A
4699207 Hanemaayer Oct 1987 A
4709623 Roth et al. Dec 1987 A
4710610 Reifel et al. Dec 1987 A
4748825 King Jun 1988 A
4784214 Penson et al. Nov 1988 A
4787210 Brown Nov 1988 A
4788487 Picklesimer Nov 1988 A
D300777 Bales et al. Apr 1989 S
4888959 Brown Dec 1989 A
D306341 Bales et al. Feb 1990 S
4914929 Shimazaki Apr 1990 A
4926655 King May 1990 A
4947657 Kalmbach Aug 1990 A
5001905 Miyazaki Mar 1991 A
5046327 Walker Sep 1991 A
5054378 Speece Oct 1991 A
5095716 You Mar 1992 A
5123258 Brown et al. Jun 1992 A
5205130 Pannell Apr 1993 A
5246196 Rollett Sep 1993 A
5265668 Fisher Nov 1993 A
5307645 Pannell May 1994 A
5531641 Aldrich Jul 1996 A
5533357 Voorhis Jul 1996 A
5544929 Nagai Aug 1996 A
5588301 Deroche, Sr. Dec 1996 A
D386735 Krueger et al. Nov 1997 S
5727998 Krueger et al. Mar 1998 A
D395704 Thomas et al. Jun 1998 S
D396097 Thomas et al. Jul 1998 S
5848536 Dodge et al. Dec 1998 A
5878592 Borges et al. Mar 1999 A
5899081 Evans et al. May 1999 A
5927090 Ladendorf et al. Jul 1999 A
5960157 McGraw Sep 1999 A
6029464 Kil et al. Feb 2000 A
6076363 Morton Jun 2000 A
6116037 Burnett Sep 2000 A
6116095 Radle Sep 2000 A
6132183 Li et al. Oct 2000 A
6134909 Lyu Oct 2000 A
6149513 Lyu Nov 2000 A
6161609 Ahn Dec 2000 A
6196914 Lyu Mar 2001 B1
6213197 Ebbeson Apr 2001 B1
6257013 Murray et al. Jul 2001 B1
6263689 Dodge et al. Jul 2001 B1
6276166 Sarkisian et al. Aug 2001 B1
6282919 Rockenfeller et al. Sep 2001 B1
6302780 Ahn et al. Oct 2001 B1
6357248 Bongaards et al. Mar 2002 B1
6357249 Robinson Aug 2002 B1
6449973 Dodge et al. Sep 2002 B2
6494052 Lee Dec 2002 B1
6536222 Ahn et al. Mar 2003 B1
6832899 Puff et al. Dec 2004 B2
D502255 Kim Feb 2005 S
6857953 Malott Feb 2005 B2
6925826 Hille et al. Aug 2005 B2
6971246 Kurata et al. Dec 2005 B2
7020386 Scime et al. Mar 2006 B2
7036332 Hallin et al. May 2006 B2
7047760 Holman, Jr. May 2006 B1
7059137 Childress Jun 2006 B2
7140192 Allen et al. Nov 2006 B2
7171822 Allen et al. Feb 2007 B2
7181918 Reinders Feb 2007 B2
D544589 Yoo et al. Jun 2007 S
7234315 Allen et al. Jun 2007 B2
7237397 Allen Jul 2007 B2
D549311 Yoo et al. Aug 2007 S
D551744 Yoo et al. Sep 2007 S
D556314 Daniels, II et al. Nov 2007 S
D558865 Yoo et al. Jan 2008 S
D560787 Yoo et al. Jan 2008 S
7316119 Allen Jan 2008 B2
7419368 Milks Sep 2008 B2
D588479 Giese Mar 2009 S
7739882 Evans et al. Jun 2010 B2
D619236 Schlag et al. Jul 2010 S
7887306 Lee Feb 2011 B2
D636474 Choi et al. Apr 2011 S
7963117 Allen et al. Jun 2011 B2
8056351 Marciano et al. Nov 2011 B2
8056933 Liptak Nov 2011 B2
8141377 Connell et al. Mar 2012 B2
D657032 Chouji Apr 2012 S
D657033 Chouji Apr 2012 S
D657036 Vetu et al. Apr 2012 S
D657857 Choi Apr 2012 S
D661386 Bergin Jun 2012 S
8240168 Holguin Aug 2012 B2
8371827 Lilie et al. Feb 2013 B2
8424776 Veettil et al. Apr 2013 B2
8440143 Liptak May 2013 B2
8535127 Malott Sep 2013 B2
8568209 Boxum Oct 2013 B2
D693798 Chuang et al. Nov 2013 S
D709604 Qin et al. Jul 2014 S
D712531 Bergin Sep 2014 S
D715907 Bergin Oct 2014 S
8869547 Nishino et al. Oct 2014 B2
D716925 Bergin Nov 2014 S
8888468 Maganhoto et al. Nov 2014 B2
8899059 Barnes et al. Dec 2014 B2
D726295 Kim et al. Apr 2015 S
D754319 Park et al. Apr 2016 S
9302605 Van Pelt Apr 2016 B1
D762289 Schmidt et al. Jul 2016 S
D764034 Schmidt et al. Aug 2016 S
D764035 Schmidt et al. Aug 2016 S
9493054 Lewis et al. Nov 2016 B2
9631832 Malott Apr 2017 B2
D785771 Bergin May 2017 S
D785772 Bergin May 2017 S
9651284 Esch May 2017 B2
D795712 Bergin et al. Aug 2017 S
9845798 Miguel et al. Dec 2017 B2
D811566 Liu et al. Feb 2018 S
D812208 Samuels Mar 2018 S
D817466 Moseley May 2018 S
9975405 Siddiqui et al. May 2018 B2
9995294 Miguel et al. Jun 2018 B2
D824387 Oberpriller Jul 2018 S
D824499 Williamson et al. Jul 2018 S
D824501 Long et al. Jul 2018 S
10082345 Mihail Sep 2018 B1
10093152 Allard et al. Oct 2018 B2
10107520 Schmidt et al. Oct 2018 B2
D834961 Bergin et al. Dec 2018 S
D841138 Williamson et al. Feb 2019 S
D850609 Bergin Jun 2019 S
D852343 Kosuge et al. Jun 2019 S
D862668 Moseley Oct 2019 S
D865914 Snyder Nov 2019 S
D865926 Moseley Nov 2019 S
10508867 Dowell, Jr. et al. Dec 2019 B2
10589593 Westendarp et al. Mar 2020 B2
10626859 Ki et al. Apr 2020 B2
D884870 Bergin May 2020 S
D885541 Schumann May 2020 S
10675941 Williamson et al. Jun 2020 B2
10696129 Bergin Jun 2020 B2
10753350 Roh et al. Aug 2020 B2
D903075 Huang et al. Nov 2020 S
D905217 Hederstierna et al. Dec 2020 S
D907183 Meda et al. Jan 2021 S
D914186 Brown et al. Mar 2021 S
10941955 Heral Mar 2021 B2
D915569 Meda et al. Apr 2021 S
D917036 Hederstierna et al. Apr 2021 S
11034208 Williamson et al. Jun 2021 B2
D940289 Hederstierna et al. Jan 2022 S
11639083 Henderson et al. May 2023 B2
20010027661 Nishikawa Oct 2001 A1
20030160141 Yamanashi Aug 2003 A1
20040040325 Evans Mar 2004 A1
20050127697 Berry Jun 2005 A1
20050160709 Hollis Jul 2005 A1
20050193762 Bae Sep 2005 A1
20060022904 Kwak et al. Feb 2006 A1
20060052050 Malott et al. Mar 2006 A1
20070151273 Nelson et al. Jul 2007 A1
20070227693 Allen et al. Oct 2007 A1
20070289325 Stone Dec 2007 A1
20070295017 Pannell Dec 2007 A1
20080014854 Tigner Jan 2008 A1
20080110185 Veettil et al. May 2008 A1
20080202138 Pabisz et al. Aug 2008 A1
20080314072 Plank et al. Dec 2008 A1
20090038774 Ogiso et al. Feb 2009 A1
20090209193 Kloster et al. Aug 2009 A1
20110030399 Lifson et al. Feb 2011 A1
20110061414 McAllister, II et al. Mar 2011 A1
20130205811 Esch Aug 2013 A1
20130340982 Johnson et al. Dec 2013 A1
20140223928 Esch Aug 2014 A1
20150360568 Champagne et al. Dec 2015 A1
20160288618 Katoh et al. Oct 2016 A1
20160311288 Mayo Mayo et al. Oct 2016 A1
20160311291 Shimoyama et al. Oct 2016 A1
20160318368 Alger et al. Nov 2016 A1
20170203632 Westendarp et al. Jul 2017 A1
20190047353 Williamson et al. Feb 2019 A1
20190047354 Williamson et al. Feb 2019 A1
20190315197 Williamson et al. Oct 2019 A1
20200132336 Muderlak Apr 2020 A1
20200148028 Westendarp et al. May 2020 A1
20200198438 Liu et al. Jun 2020 A1
20200298655 Williamson et al. Sep 2020 A1
20200338951 Paci et al. Oct 2020 A1
20200376993 Jun et al. Dec 2020 A1
20210061054 Meda et al. Mar 2021 A1
20210061058 Meda et al. Mar 2021 A1
20210061060 Meda et al. Mar 2021 A1
20210207882 Jurek Jul 2021 A1
20210239105 Allard et al. Aug 2021 A1
20210276396 Jurek Sep 2021 A1
20210354526 Williamson et al. Nov 2021 A1
20220001718 Jurek Jan 2022 A1
20220009306 Hornung Jan 2022 A1
Foreign Referenced Citations (247)
Number Date Country
2004202967 Jun 2005 AU
2007200788 Sep 2007 AU
2007202766 Jan 2008 AU
2007237183 Jun 2008 AU
2009233601 Jun 2010 AU
2012261549 Jan 2013 AU
354553 Mar 2014 AU
360022 Jan 2015 AU
360131 Jan 2015 AU
360132 Jan 2015 AU
367405 Mar 2016 AU
201610870 Apr 2016 AU
201611751 May 2016 AU
201612249 May 2016 AU
201613591 Jul 2016 AU
201613592 Jul 2016 AU
201613593 Jul 2016 AU
20160101949 Dec 2016 AU
2015289763 Jan 2017 AU
2017100215 Mar 2017 AU
201712794 May 2017 AU
201712798 May 2017 AU
2017200186 Aug 2017 AU
201810968 Mar 2018 AU
201810969 Mar 2018 AU
201810970 Mar 2018 AU
201810971 Mar 2018 AU
201810972 Mar 2018 AU
201810973 Mar 2018 AU
201810975 Mar 2018 AU
201810977 Mar 2018 AU
201810978 Mar 2018 AU
201816419 Jan 2019 AU
201910037 Feb 2019 AU
201910038 Feb 2019 AU
201911094 Apr 2019 AU
201912125 Jun 2019 AU
2017364256 Jun 2019 AU
2019202512 Oct 2019 AU
201915241 Dec 2019 AU
201916406 Dec 2019 AU
201916408 Dec 2019 AU
201916409 Dec 2019 AU
2018366469 May 2020 AU
202016120 Jan 2021 AU
202016121 Jan 2021 AU
202016122 Jan 2021 AU
202016123 Jan 2021 AU
2518348 Mar 2006 CA
2578651 Aug 2007 CA
2587994 Dec 2007 CA
2611822 May 2008 CA
2500519 Sep 2009 CA
2686403 May 2010 CA
2906348 Sep 2014 CA
2951956 Dec 2015 CA
2954152 Jan 2016 CA
166803 Mar 2016 CA
166804 Mar 2016 CA
165232 May 2016 CA
165233 May 2016 CA
167369 Dec 2016 CA
170638 Dec 2016 CA
167431 Feb 2017 CA
172872 Feb 2017 CA
172873 Feb 2017 CA
172874 Feb 2017 CA
1436677 Aug 2003 CN
1657775 Aug 2005 CN
101509717 Aug 2009 CN
201392053 Jan 2010 CN
103237671 Aug 2013 CN
103687735 Mar 2014 CN
203623791 Jun 2014 CN
104044432 Sep 2014 CN
203920328 Nov 2014 CN
104325923 Feb 2015 CN
106895502 Jun 2017 CN
106976376 Jul 2017 CN
109070688 Dec 2018 CN
305029216 Feb 2019 CN
305029217 Feb 2019 CN
305029218 Feb 2019 CN
305105066 Apr 2019 CN
110293813 Oct 2019 CN
110385958 Oct 2019 CN
305397384 Oct 2019 CN
111344168 Jun 2020 CN
213237518 May 2021 CN
213237945 May 2021 CN
306672354 Jul 2021 CN
306681352 Jul 2021 CN
306901266 Oct 2021 CN
2723318 Dec 1978 DE
19654261 Jun 1998 DE
19730136 Jan 1999 DE
69503723 Apr 1999 DE
69817899 May 2004 DE
10255833 Jun 2004 DE
10336767 Dec 2004 DE
59812376 Jan 2005 DE
202004007924 Oct 2005 DE
202005013530 Nov 2005 DE
102004032920 Mar 2006 DE
202004017266 Mar 2006 DE
202005000560 May 2006 DE
102005030362 Nov 2006 DE
202006001377 May 2007 DE
202007003764 May 2007 DE
602004004480 May 2007 DE
202006001374 Jun 2007 DE
202006001376 Jun 2007 DE
202006009803 Nov 2007 DE
202007006292 Sep 2008 DE
102007038443 Feb 2009 DE
102007038716 Feb 2009 DE
602005012194 Feb 2009 DE
202009003069 Jun 2009 DE
202008003123 Jul 2009 DE
102008028066 Dec 2009 DE
602007009584 Nov 2010 DE
502007006725 Apr 2011 DE
202011101256 Nov 2011 DE
202010012578 Dec 2011 DE
102011053341 May 2014 DE
202011002986 Jun 2014 DE
202013004158 Aug 2014 DE
102016220768 Apr 2018 DE
112017000915 Oct 2018 DE
102017207797 Nov 2018 DE
102017214941 Feb 2019 DE
102017219353 May 2019 DE
112017005541 Aug 2019 DE
102018204532 Sep 2019 DE
102018206490 Oct 2019 DE
102019205194 Oct 2019 DE
102018206854 Nov 2019 DE
202015009786 Feb 2020 DE
212018000248 Feb 2020 DE
212018000249 Feb 2020 DE
112018003284 Mar 2020 DE
112018003288 Apr 2020 DE
102018222877 Jun 2020 DE
112018005002 Jul 2020 DE
112018005883 Jul 2020 DE
102020203424 Jul 2021 DE
112020000265 Sep 2021 DE
102020206181 Nov 2021 DE
102020206182 Nov 2021 DE
102020206183 Nov 2021 DE
005811890-0001 Oct 2018 EM
005811890-0002 Oct 2018 EM
005811890-0003 Oct 2018 EM
005811890-0004 Oct 2018 EM
0700801 Mar 1996 EP
0863030 Dec 1997 EP
0869018 Oct 1998 EP
0892225 Jan 1999 EP
1140533 Jan 2003 EP
1502785 Feb 2005 EP
1538009 Jun 2005 EP
1538411 Jun 2005 EP
1468852 Dec 2005 EP
0921361 Feb 2006 EP
1634740 Mar 2006 EP
1721765 Nov 2006 EP
1752717 Feb 2007 EP
1826041 Aug 2007 EP
1870270 Dec 2007 EP
1925889 May 2008 EP
1955946 Aug 2008 EP
1988612 Nov 2008 EP
1526974 Jan 2009 EP
2048011 Apr 2009 EP
2178710 Apr 2010 EP
2189312 May 2010 EP
2192040 Jun 2010 EP
2196390 Jun 2010 EP
2433658 Mar 2012 EP
2616258 Jul 2013 EP
2665611 Nov 2013 EP
2994326 Mar 2016 EP
3113965 Jan 2017 EP
3241695 Nov 2017 EP
3303965 Apr 2018 EP
2714440 May 2018 EP
3401619 Nov 2018 EP
3411250 Dec 2018 EP
3476630 May 2019 EP
3543047 Sep 2019 EP
3564564 Nov 2019 EP
3592585 Jan 2020 EP
1056812 May 2004 ES
1056841 May 2004 ES
1059964 Jul 2005 ES
1059965 Jul 2005 ES
2726352 May 1996 FR
765498 Jan 1957 GB
1127586 Sep 1968 GB
2349687 Nov 2000 GB
106470856 Mar 2017 IN
S59 4307 Jan 1984 JP
2005164231 Jun 2005 JP
2000034096 Jun 2000 KR
2000034097 Jun 2000 KR
822168 Apr 2008 KR
822169 Apr 2008 KR
1011332 Aug 2000 NL
2017143394 Aug 2017 NO
2753994 Aug 2021 RU
2000063036 Oct 2000 WO
0206698 Jan 2002 WO
2004090440 Oct 2004 WO
2004098933 Nov 2004 WO
2005108135 Nov 2005 WO
2009021994 Feb 2009 WO
2009055891 May 2009 WO
2012034695 Mar 2012 WO
2012113538 Aug 2012 WO
2012159749 Nov 2012 WO
2014143181 Sep 2014 WO
2014180559 Nov 2014 WO
2015013794 Feb 2015 WO
2016011073 Jan 2016 WO
2016120337 Aug 2016 WO
2016166320 Oct 2016 WO
2016189520 Dec 2016 WO
2017143393 Aug 2017 WO
2018096127 May 2018 WO
2019025633 Feb 2019 WO
2019025634 Feb 2019 WO
2019025635 Feb 2019 WO
2019025636 Feb 2019 WO
2019038023 Feb 2019 WO
2019082168 May 2019 WO
2019097448 May 2019 WO
2019207451 Oct 2019 WO
2019229706 Dec 2019 WO
2019244011 Dec 2019 WO
2020151541 Jul 2020 WO
2020188485 Sep 2020 WO
2020192746 Oct 2020 WO
2021074841 Apr 2021 WO
2021186414 Sep 2021 WO
2021228601 Nov 2021 WO
2021228605 Nov 2021 WO
2021228620 Nov 2021 WO
Non-Patent Literature Citations (69)
Entry
Englisht Translation CN-106895502-A (Year: 2017).
English Translation EP0863030A2 (Year: 1997).
Australian application No. 201910037, “Air conditioner,” filed on Jan. 4, 2019.
Australian application No. 201910038, “Air conditioner,” filed on Jan. 4, 2019.
Australian application No. 201816419, “Air conditioner” filed on Oct. 26, 2018.
American RV Company, Dometic 459530 Duo Therm 13,500 BTU Brisk Air Conditioner High Efficiency Upper Unit Trailer Camper RV, Mar. 23, 2014 https://web.archive.org/web/20140323013456/http://www. americanrvcompany.com/Dometic-459530-Duo-Therm-13500-BTU-Brisk-Air-Conditioner-High-Efficiency-Upper-Unit-Trailer-Camper-RV Mar. 23, 2014.
American Rv Company, Dometic 541815 High Performance 13,500 BTU Air Conditioner Upper Unit CCC2 Required Electronics Pre-Installed Camper Trailer RV, http://www.americanrvcompany.com/Dometic-541815-High-Performance-13500-BTU-Air-Conditioner-Upper-Unit-CCC2-Required-Electronics-Pre-Installed-Camper-Trailer-RV Mar. 23, 2014.
American RV Company, Dometic 541816 High Performance 15,000 BTU Air Conditioner Upper Unit CCC2 Required Electronics Pre-Installed Camper Trailer RV, http://www.americanrvcompany.com/Dometic-541816-High-Performance-15000-BTU-Air-Conditioner-Upper-Unit-CCC2-Required-Electronics-Pre-Installed-Camper-Trailer-RV Mar. 23, 2014.
American RV Company, Dometic 541916 High Performance 15,000 BTU Air Conditioner Upper Unit Single Zone LCD Thermostat Required Electronics Pre-Installed Camper Trailer RV, http://www.americanrvcompany.com/Dometic-541916-High-Performance-15000-BTU-Air-Conditioner-Upper-Unit-Single-Zone-LCD-Thermostat-Required-Electronics-Pre-Installed-Camper-Trailer-RV Mar. 23, 2014.
American RV Company, Dometic 551816 High Performance 15,000 BTU Heat Pump for Comfort Control Center II Camper Trailer RV, http://www.americanrvcompany.com/Dometic-551816-High-Performance-15000-BTU-Heat-Pump-for-Comfort-Control-Center-I I-Camper-Trailer-RV Mar. 23, 2014.
Australian Patent Application No. 2019259641 titled “Damped Mobile Compressor” filed on Oct. 20, 2020.
Chinese application No. 201830607654.X, “Mobile Air conditioner,” filed on Oct. 30, 2018.
Chinese application No. 201980028248.X “Damped Mobile Compressor” filed on Oct. 22, 2020.
Dometic Group: “Climate Control”, http://www.dometic.com/enus/Americas/USA/RV-Products/climate, 2 pages.
Dometic Corporation, Dometic High Performance Air Conditioners, 2 pages, Jan. 1, 2011.
Dometic 2015 Product Catalog, Climate Control (2015).
Dometic 2016 Product Catalog, Climate Control (2016).
Dometic Duo-Therm, p. 140, Feb. 23, 2013.
Dometic Waeco Coolair RT 880; http://www.dometic.co.uk/product/waeco-coolair-rt-880-2/ May 14, 2015.
European Patent Application No. 19727497 tiltled “Damped Mobile Compressor” filed Oct. 20, 2020.
European Design Application No. 005811890-0001-0004 tiltled “Mobile Air Conditioner” filed Oct. 29, 2018.
International Search Report for PCT application No. PCT/IB2019/053280 dated Oct. 24, 2019.
Invitation to Pay Additional Fees and Partial Search Report for PCT/IB2019/053280 dated Aug. 19, 2019, 8 pages.
Notice of Allowance Issued in U.S. Appl. No. 29/645,887 dated Aug. 30, 2021.
PCT application No. PCT/IB2019/053280 titled “Damped Mobile Compressor” filed on Apr. 19, 2019.
PCT Application No. PCT/IB2020/052438 titled “Mobile Air Conditioner” filed on Mar. 17, 2020.
Restriction Requirement Issued for U.S. Appl. No. 29/645,887 dated May 21, 2021.
U.S. Appl. No. 17/440,104 titled “Mobile Air Conditioner” filed on Sep. 16, 2021.
Design U.S. Appl. No. 29/798,939 titled “Housing Shroud and Housing for an Air Conditioner” filed Jul. 12, 2021.
U.S. Appl. No. 62/661,468, filed Apr. 23, 2018 entitled “Damped Mobile Compressor”.
U.S. Appl. No. 63/175,304 titled “Mobile Air Conditioner” filed Apr. 15, 2021.
Design U.S. Appl. No. 29/645,887 titled “Mobile Air Conditioner” filed Apr. 30, 2018.
U.S. Appl. No. 17/049,731 tiltled “Damped Mobile Compressor” filed Oct. 22, 2020.
Corrected Notice of Allowance Issued in U.S. Appl. No. 29/645,887 dated Sep. 29, 2021.
International Preliminary Report on Patentability Issued in PCT Application No. PCT/IB2020/052438 dated Sep. 16, 2021.
Corrected Notice of Allowance Issued in U.S. Appl. No. 29/645,887 dated Oct. 14, 2021.
Corrected Notice of Allowance Issued in U.S. Appl. No. 29/645,887 dated Oct. 28, 2021.
Office Action Issued in China Application No. 201980028248.X dated Dec. 22, 2021.
Restriction Requirement Issued for U.S. Appl. No. 17/049,731 dated Jan. 25, 2022.
U.S. Appl. No. 62/819,711 titled “Mobile Air Conditioner” filed Mar. 18, 2019.
U.S. Appl. No. 29/767,929 titled “Air Conditioning Housing” filed Jan. 26, 2021.
U.S. Appl. No. 63/141,800 titled “Air Conditioning System for a Vehicle” filed Jan. 26, 2021.
U.S. Appl. No. 29/774,535 titled “Air Distribution Box” filed Mar. 17, 2021.
U.S. Appl. No. 29/641,674 titled “Control Panel” filed Mar. 23, 2018.
U.S. Appl. No. 29/645,887 titled “Mobile Air Conditioner” filed Apr. 30, 2018.
U.S. Appl. No. 29/715,592 titled “Filter Housing” filed Dec. 3, 2019.
U.S. Appl. No. 29/758,314 titled “Air Conditioning Apparatus” filed Nov. 13, 2020.
U.S. Appl. No. 29/760,605 titled “Air Conditioning Apparatus” filed Dec. 2, 2020.
U.S. Appl. No. 62/661,468 titled “Damped Mobile Compressor” filed Apr. 23, 2018.
U.S. Appl. No. 62/686,217 titled “Heating, Ventilation and Air Conditioning System with Illumination” filed Jun. 18, 2018.
U.S. Appl. No. 62/992,595 titled “Heating, Ventilation and Air Conditioning System with Illumination” filed Mar. 20, 2020.
European Patent Office Invitation to Pay Additional Fees for PCT/IB2020/052438 dated Jul. 9, 2020, 9 pages.
European Patent Office International Search Report and Written Opinion for PCT/IB2020/052438 dated Oct. 7, 2020, 18 pages.
U.S. Appl. No. 63/061,462 titled “Modular Compressor Cooling Unit, Appliance, and Method Therefore” filed Aug. 5, 2020.
U.S. Appl. No. 17/579,442 titled “Heating Arrangement and Heat Distribution Unit for Such a Heating Arrangement” filed Jan. 19, 2022.
U.S. Appl. No. 17/673,080 titled “Recreational Vehicle, Cooling Device, Controlling System and Method for Controlling the Cooling Device” filed Feb. 16, 2022.
Non-Final Office Action issued in U.S. Appl. No. 29/798,939 dated Jun. 8, 2023.
Non-Final Office Action issued in U.S. Appl. No. 17/049,731 dated Sep. 1, 2022.
Office Action Issued in China Application No. 201980028248.X dated Jul. 29, 2022.
Office Action issued in EP Application No. 19727497.0 dated Dec. 12, 2022.
Decision to Grant Issued in China Application No. 201980028248.X dated Jan. 4, 2023.
Patent Certificate Issued in China Application No. 201980028248.X dated Feb. 17, 2023.
Final Office Action issued in U.S. Appl. No. 17/049,731 dated Feb. 28, 2023.
Non-Final Office Action issued in U.S. Appl. No. 17/440,104 dated May 12, 2023.
Notice of Allowance issued in U.S. Appl. No. 17/440,104 dated Oct. 31, 2023.
Notice of Allowance issued in U.S. Appl. No. 17/049,731 dated Nov. 14, 2023.
Notice of Allowance issued in U.S. Appl. No. 29/798,939 dated Jan. 2, 2024.
Notice of Allowability issued in U.S. Appl. No. 17/440,104 dated Jan. 19, 2024.
Office Action issued in DE Patent Application No. 102022203759.6 dated Nov. 30, 2023.
Related Publications (1)
Number Date Country
20220001718 A1 Jan 2022 US
Provisional Applications (2)
Number Date Country
63175304 Apr 2021 US
62819711 Mar 2019 US
Continuation in Parts (1)
Number Date Country
Parent 17440104 US
Child 17477343 US