CUSTOMIZABLE MODULAR HYDRONIC SYSTEM

Abstract

Interior space customizable, re-customizable, modular, hydronic system, comprising: one or more modular base heating and/or cooling units, each adapted for residing between studs of the room's wall and selectively comprising one of a frame adapted to be completely recessed between studs, partially (e.g., approximately ?-way) recessed between the studs, and not recessed at all but still substantially located between the studs, each modular base unit adapted for successive repeated linear implementation with other modular base units of like composition to meet greater or lesser heating and/or cooling needs of the interior space; and one or more contiguous face cover members, and optional edge members, adapted to be secured to corresponding modular base unit(s), wherein the face cover members and optional edge cover members each comprise peripheral edges adapted to achieve, singularly or in combination, an aesthetically coherent face, and optional aesthetically coherent edge cover members, for the system.

Claims

1. A customizable, modular, hydronic system adapted for use in an interior area, such as a house, micro-zone or a room, with other connected hydronic components such as a reversible heat pump, a buffer tank, a pump, an air handler, or a boiler, comprising: a first modular base unit comprising at least one heat exchanger within a modular base unit frame optionally adapted for residing between studs of the room's wall and selectively comprising one of a frame adapted to be completely recessed in the wall between the studs, partially recessed in the wall between the studs, and not recessed, the modular base unit being adapted for retaining heated, or alternatively cooled, hydronic fluid in the at least one heat exchanger adapted for being circulated throughout said first modular base unit by the other connected hydronic components, said first modular base unit adapted for successive repeated linear implementation with an at least optional second modular base unit of like composition to said first base unit, the system thus being readily adaptable to expansion to meet increased heating and cooling needs of the room depending upon its size and other characteristics; and a first modular face cover member adapted to be secured to said first modular base unit, wherein said first face cover member comprises a peripheral edge and is optionally adapted for use with an at least optional second modular face cover member in case said at least an optional second modular base unit is included depending upon heating and cooling needs of the room, the said at least optional second modular face cover member each also comprising a peripheral edge, wherein each of the peripheral edges is adapted to be readily customized to achieve, singularly or in combination with others of the peripheral edges, an aesthetically coherently designed cover member for the hydronic system, and wherein said first face cover member and said at least second optional face cover member are also adapted to be readily re-customized to achieve an alternative aesthetically coherent design.

2. The system of claim 1, wherein said first modular face cover member and said at least optional second modular face cover member are contiguous and each further comprise at least one vent in an anterior surface of each said first face cover member and said at least optional second contiguous modular face cover member, and further comprising at least one fan adapted for blowing air across the at least one heat exchanger of said at least one modular base unit and said at least optional second modular base unit, to carry adjacent heated, or alternatively cooled, air from the at least one heat exchanger through said at least one vent and into the interior area.

3. The system of claim 2, further comprising a plurality of modular edge members and a plurality of modular corner edge members adapted for being interconnected around and relatively to one or more of the peripheries of said first modular face cover member and each said at least optional second modular face cover member, wherein each of said plurality of modular edge members and each of said plurality of modular corner edge members form, singularly or in combination with others of said first face cover member, said optional second modular face cover member, said plurality of modular edge members, and said plurality of modular corner edge members, an aesthetically coherent design cover member, irrespective of colors and ornamental designs, for the hydronic system, and wherein said first modular face cover member and said at least optional second contiguous modular face cover member are adapted to be re-customized to achieve one or more alternative other aesthetically coherent designs, irrespective of colors and patterns, for the hydronic system.

4. The system of claim 3, wherein said plurality of modular edge members and said plurality of modular corner edge members are adapted for being interconnected around and relative to one or more of the peripheries of said first modular face cover member and each said at least optional second contiguous modular face cover member to form, singularly or in combination with others of said first face cover member, said optional second contiguous modular face cover member, said plurality of modular edge members, and said plurality of modular corner edge members, any of a number of different color and/or pattern choices from a plurality of component supplies.

5. The system of claim 1, wherein any said base unit is adapted to be selected from a plurality of base unit component supplies provided in view of initial and changing interior-design-type and system capacity type considerations.

6. The system of claim 1, wherein any said face cover member is adapted to be selected from a plurality of face cover member component supplies provided in view of initial and changing interior-design-type considerations.

7. The system of claim 1, wherein any said at least one edge cover member is adapted to be selected from a plurality of edge cover member component supplies provided in view of initial and changing interior-design-type considerations.

8. The system of claim 1, wherein said base units, said edge cover members, and said face cover member, are adapted to be selected from a plurality of component supplies provided in view of initial and changing capacity-type considerations and initial and changing interior-design-type considerations.

9. The system of claim 1, wherein said first modular base unit and said at least optional second base unit of the modular hydronic heating and cooling system are adapted to be fully-recessed between the studs, wherein said first face cover member for said first modular base unit and said at least optional second face cover member for said at least optional second modular base unit each further comprise at least one normally-oriented tab on an inside surface of said first face cover unit and said at least optional second contiguous face cover member, for plugging a corresponding vent in the frame member of said at least one base unit and said at least optional second modular base unit, for re-routing air flow from one vent of each said base unit to another vent in each said face cover member.

10. The system of claim 1, wherein said first modular base unit and said at least optional second modular base unit of like composition to said first modular base unit is adapted for being recessed substantially midway into the wall of the given interior space.

11. The system of claim 1, wherein said cover member is designed to have a substantially singular appearing face cover member.

12. The system of claim 1, wherein the face cover member covers supply piping to and from the system.

13. The system of claim 1, wherein the cover member covers supply piping to and from the system.

14. The system of claim 1, comprised of a plurality of base units linearly-aligned horizontally, wherein the cover member bridges at least one stud and covers supply piping to and from the system and between base units of the system.

15. The system of claim 1, comprised of a plurality of base units linearly-aligned vertically, wherein the cover member covers supply piping to and from the system and between base units of the system.

16. A method of installing a hydronic system adaptable to be modularly scalable to meeting heating and/or cooling needs of a given interior space, comprising the steps of: A. Determining the Btu needs and type of system, whether heating and cooling, heating alone, or cooling alone, needed to supply the given interior space; B. Determining a desired configuration of system, whether vertically or horizontally oriented, and whether fully recessed between studs, partially recessed between the studs, or non-recessed; C. Selecting an appropriate number of modular base units to supply needed Btu's for the given interior space, whether a single modular base unit or a plurality of modular base units, from a plurality of modular base unit component supplies; D. Determining an appropriate number of modular edge members and corner members, if any, and a single appropriate face plate member, whether for covering a single modular base unit or a plurality of modular base units, from a plurality of modular component supplies; E. Marking locations for installation on the interior space wall, being sure to align as level installation holes in the case of a desired horizontally-linear arrangement, and anticipating the possibility for a need for a plurality of side-by-side, or a plurality of vertically-stacked, modular base units residing between the studs; F. Installing hanging brackets onto studs anticipating the possibility for a need for a plurality of side-by-side, or a plurality of vertically-stacked, modular base units residing between the studs; G. Hanging the appropriate number of base units on the hanging brackets with the base unit frame members located between the studs; H. Hooking up pipes and electronics into the selected number of base units; I. Selecting desired edge cover members, if any, and face cover members from a plurality of edge cover member and face cover member component supplies; J. Assembling edge cover members, if any, and attaching them to the wall or a base unit, and attaching a face cover member, to form an aesthetically-coherent design face and edge hydronic system covering member; K. Placing the cover member over the base unit(s) such that vent holes in the one or more base units align with vent holes in one of the modular edge cover members and the face cover member to ensure unimpeded airflow through the system; and L. Securing the cover member onto the base units.

17. The method of installing the modular hydronic heating and cooling system of claim 16, further comprising the steps of determining an aesthetically pleasing, in terms of color and design, face cover member and correspondingly aesthetically pleasing edge cover members, and selecting the plurality of edge cover members and at least one face cover member from a plurality of modular component supplies.

18. In the method of installing a modular hydronic heating and cooling system of claim 16, wherein the modular base units of the system are to be fully-recessed between the studs, the step of placing the cover member over the one or more base units further comprises the step of simultaneously aligning and inserting normally-oriented tabs attached on an inner surface of the selected face cover member so that the tabs cover upper and lower vent holes in frame portions of the one or more base units, thus effectively re-routing ventilation of the system to the pass through vent holes in the face cover member.

19. A customizable, modular, hydronic system adapted for use in an interior area, such as a micro-zone or a room, with other connected hydronic components such as a reversible heat pump, a buffer tank, a pump, an air handler, or a boiler, comprising: a base unit comprising at least one heat exchanger within a modular base unit frame optionally adapted for residing between studs of the room's wall and selectively comprising one of a frame adapted to be completely recessed in the wall between the studs, partially recessed in the wall between the studs, and not recessed in the wall, said modular base unit being adapted for retaining heated, or alternatively cooled, hydronic fluid in the at least one heat exchanger adapted for being circulated throughout said base unit by the other connected hydronic components; and a readily detachable and re-attachable face cover member adapted to be secured to said base unit and adapted for selection from a plurality of face cover member component supplies to facilitate coordination of the system's appearance with initial interior designs, said face cover member being further adapted for easy re-customization according to any subsequent changes to interior designs for the interior space in which the system is used.

20. The system of claim 19, further comprising a plurality of modular edge members adapted for selection from a plurality of modular edge component supplies to further facilitate coordination of the system's appearance with initial interior designs, said modular edge members being adapted for easy re-customization according to any subsequent changes to interior designs for the interior space in which the system is used.

21. A customizable, modular, hydronic system adapted for use in an interior area, such as a house, micro-zone or a room, with other connected hydronic components such as a reversible heat pump, a buffer tank, a pump, an air handler, or a boiler, comprising: first and second modular base units, each said first and second base unit comprising at least one heat exchanger within a modular base unit frame optionally adapted for residing between studs of the room's wall and selectively comprising one of a frame adapted to be completely recessed in the wall between the studs, partially recessed in the wall between the studs, and not recessed, said first and second modular base units being adapted for retaining heated, or alternatively cooled, hydronic fluid in each at least one heat exchanger adapted for being circulated throughout said first and second modular base units by the other connected hydronic components, said first and second modular base units adapted for successive repeated linear implementation; and a modular face cover member adapted to be secured to said first and second modular base units, wherein said face cover member comprises a peripheral edge, wherein said face cover member is adapted to be readily customized to achieve an aesthetically coherently designed cover member for the hydronic system, and wherein said face cover member is also adapted to be readily re-customized to achieve an alternative aesthetically coherent design.

22. The system of claim 1, wherein said first modular base unit and said at least optional second base unit of the modular hydronic heating and cooling system are adapted to be partially-recessed between the studs, wherein said first face cover member for said first modular base unit and said at least optional second face cover member for said at least optional second modular base unit appear contiguous one with the other.

Description

BRIEF DESCRIPTIONS OF DRAWINGS

[0059] FIG. 1A is a front perspective view of an embodiment of a fully-recessed fan coil-type modular base unit (the unit also comprising a housing frame) adapted for use in a customizable, modular, hydronic system for heating/cooling an interior area, wherein in terms of piping layout the modular base unit is optionally adapted for selection from a component supply for ready customizable and recustomizable design use as an in-the-wall, between-studs, upper modular base unit of a series of such vertically-oriented modular base units, any of the modular base units of such a series of horizontally-oriented modular base units, or a singular such modular base unit;

[0060] FIG. 1B is a front left perspective view of the fully-recessed fan coil-type modular base unit of FIG. 1A (the unit also comprising a housing frame) adapted for use in a customizable, modular, hydronic system for heating/cooling of an interior area, wherein the modular base unit is optionally adapted for selection from a component supply for ready customizable and recustomizable design use as an in-the-wall, between-studs, modular base unit in any location in a series of such modular base units, whether horizontally-oriented or vertically-oriented, or a singular such modular base unit;

[0061] FIG. 1C is a front left perspective view of the fully-recessed fan coil-type modular base unit of FIGS. 1A and 1B, further showing how mounting flanges for the unit are attached at an anterior portion of the housing frame of the modular base unit adapted for enabling fully-recessed installation of the modular base unit between studs of a wall, wherein the modular base unit is optionally adapted for selection from a component supply adapted for ready customizable and recustomizable design use as a modular base unit in any location in a series of such modular base units, whether horizontally-oriented or vertically-oriented, or as a singular such modular base unit;

[0062] FIG. 1D is a front left perspective view of an alternative embodiment partially-recessed fan coil-type modular base unit, further showing how mounting flanges for the unit are attached at an intermediate portion of the housing frame of the modular base unit adapted for enabling partially-recessed installation of the modular base unit between studs of a wall, wherein the modular base unit is optionally adapted for selection from a component supply adapted for ready customizable and recustomizable design use as a modular base unit in any location in a series of such modular base units, whether horizontally-oriented or vertically-oriented, or as a singular such modular base unit;

[0063] FIG. 1E is a front left perspective view of another alternative embodiment non-recessed fan coil-type modular base unit, further showing how mounting flanges for the unit are attached at a posterior portion of the housing frame of the modular base unit adapted for enabling non-recessed installation of the modular base unit on the surface of a wall, wherein the modular base unit is optionally adapted for selection from a component supply as a modular base unit adapted for ready customizable and recustomizable design use as a modular base unit in any location in a series of such modular base units, whether horizontally-oriented or vertically-oriented, or as a singular such modular base unit;

[0064] FIG. 1F is a front perspective view of an embodiment of a fully-recessed fan coil-type modular base unit, wherein in terms of piping layout, the modular base unit is optionally adapted for selection from a component supply as a modular base unit adapted for ready customizable and recustomizable design use as an intermediate fully-recessed modular base unit, or a bottom base unit, in a vertically-oriented series of such modular base units (and adapted to be used with another modular base unit as the top such base unit as shown in FIG. 1A, or with another modular base unit as another intermediate such base unit as shown herein in this FIG. 1F)

[0065] FIG. 1G is a front perspective view of another embodiment of a fully-recessed modular base unit, namely a radiator-type modular base unit (the unit also comprising a housing frame) adapted for use in a customizable, modular, hydronic system for heating/cooling an interior area, wherein in terms of piping layout the modular base unit is optionally adapted for selection from a component supply for ready customizable and recustomizable design use as an in-the-wall, between-studs, upper modular base unit of a series of such vertically-oriented modular base units, any of the modular base units of such a series of horizontally-oriented modular base units, or a singular such modular base unit.

[0066] FIG. 1H is a front left perspective view of an embodiment of fan coil-type modular base unit, wherein modular base unit is fully-recessed between the studs of a wall;

[0067] FIG. 1I is a front left perspective view of an embodiment of fan coil-type modular base unit, wherein the modular base unit is partially recessed between the studs of a wall;

[0068] FIG. 1J is a front left perspective view of an embodiment of fan coil modular base unit, wherein the modular base unit is not recessed between the studs of a wall, but rather is mounted to the surface of the wall;

[0069] FIG. 2A is a rear perspective view of a customizable modular cover member for covering a single non-recessed, modular base unit, comprising a single face cover member, four edge members (a vented top edge member, a vented bottom edge member, and two side edge members), and four modular corner edge members, wherein each portion of the modular cover member is optionally adapted for selection from a component supply adapted for use for readily customizable, and recustomizable design for covering of a singular non-recessed modular base unit;

[0070] FIG. 2B is a front perspective view of the customizable non-recessed, modular cover member of FIG. 2A;

[0071] FIG. 2C is a front perspective view of a plurality of customizable non-recessed modular cover members, comprising the single non-recessed modular cover member of FIGS. 2A and 2B, vertically oriented dual-series and triple-series non-recessed modular base unit cover members, and horizontally oriented dual-series and triple-series, non-recessed, modular base unit cover members, wherein each cover member further comprises four non-recessed corner edge members, a plurality of vertical non-recessed edge members, a plurality of non-recessed vented top and bottom edge cover members, and a face cover member, wherein each portion of each modular cover member is optionally adapted for selection from a component supply adapted for use for readily customizable and recustomizable design covering of one or more non-recessed modular base units, whether as a vertically-oriented series of such modular base units, a horizontally-oriented series of such modular base units, or a singular such modular base unit;

[0072] FIG. 2D is a rear perspective view of the plurality of customizable non-recessed, modular face cover members of FIG. 2C, showing from the rear that the face cover member thereof is adapted for use with a fan coil-type version of a hydronic system since there is duct work on the rear of the face cover member to appropriately route forced air from the fans of the modular fan coil member;

[0073] FIG. 2E is a rear perspective exploded view of a customizable non-recessed modular cover member, wherein each portion of the modular cover member is adapted for selection from a component supply adapted for use for readily customizable and recustomizable design covering of a non-recessed (wall-mount) modular base unit, also showing from the rear that the face cover member is adapted for use with a radiator version of a hydronic system since there is no duct work on the rear of the face cover member, and wherein there is provided an exemplary retaining system comprising curved slidable tabs for retaining the face cover member on the modular corner edge members;

[0074] FIG. 2F is a front view of a various face cover members coming in different sizes and having different decorative patterns on the face thereof;

[0075] FIG. 2G is a rear perspective view of a plurality of customizable non-recessed, modular face cover members of FIG. 2G, showing from the rear that the face cover member portion thereof is adapted for use with a radiator version of a hydronic system since there is no duct work on the rear of the face cover member

[0076] FIG. 3A is a rear perspective view of a customizable partially-recessed modular cover member for covering a single partially-recessed, modular base unit, comprising a single face cover member, four edge members (a vented top edge member, a vented bottom edge member, and two side edge members), and four modular corner edge members, wherein each portion of the modular cover member is optionally adapted for selection from a component supply adapted for use for readily customizable, and recustomizable design for covering of a singular partially-recessed modular base unit, wherein the face cover member is suited for use with a fan coil-type modular base unit since it has a baffles, or ducts, for one exemplary way of assisting with holding the face cover member in place relative to the modular base unit, the modular edge cover members, and the modular corner cover members;

[0077] FIG. 3B is a front perspective view of the customizable partially-recessed modular cover member of FIG. 3A;

[0078] FIG. 3C is a front perspective view of a plurality of customizable partially-recessed modular cover members, comprising the single partially-recessed modular cover member of FIGS. 3A and 3B, vertically oriented dual-series and triple-series partially-recessed modular cover members, and horizontally oriented dual-series and triple-series, partially-recessed, modular base unit cover members, wherein each cover member further comprises four partially-recessed modular corner edge members, a plurality of vertical partially-recessed modular edge members, and a plurality of partially-recessed vented top and bottom modular edge cover members, wherein each portion of each modular cover member is optionally adapted for selection from a component supply adapted for use for readily customizable and recustomizable design covering of one or more partially-recessed modular base units, whether as a vertically-oriented series of such modular base units, a horizontally-oriented series of such modular base units, or a singular such modular base unit;

[0079] FIG. 3D is a plurality of rear perspective views of the plurality of customizable partially-recessed modular cover members of FIG. 3C, also showing from the rear that the face cover member is adapted for use with a fan coil-type embodiment of modular base unit of a hydronic system since there is duct work on the rear of the face cover member;

[0080] FIG. 3E is a rear perspective exploded view of a customizable partially-recessed modular cover member, wherein each portion of the modular cover member is adapted for selection from a component supply adapted for use for readily customizable and recustomizable design covering of a partially-recessed modular base unit also showing from the rear that the face cover member is adapted for use with a radiator version of a hydronic system since there is no duct work on the rear of the face cover member, and wherein there is provided an exemplary retaining system comprising curved slidable tabs for retaining the face cover member on the modular corner edge members;

[0081] FIG. 3F is a front view of a various face cover members coming in different sizes and having different decorative patterns on the face thereof;

[0082] FIG. 3G shows a plurality of rear perspective views of the plurality of customizable partially-recessed modular cover members of FIG. 3C, also showing from the rear that the face cover member is adapted for use with a radiator-type embodiment of a hydronic system since there is no duct work on the rear of the face cover member;

[0083] FIG. 4A is a front perspective view of a customizable fully-recessed modular cover member for covering a single fully-recessed modular base unit, comprising a single face cover member, wherein the modular cover member is optionally adapted for selection from a component supply adapted for use for readily customizable, and recustomizable design for covering of a singular fully-recessed modular base unit;

[0084] FIG. 4B is a rear perspective view of the customizable fully-recessed modular cover member of FIG. 4A, and further showing how the face cover member is able to be retained on the fan coil-type base unit with tabs engaging with portions of the fan coil-type base unit duct work;

[0085] FIG. 4C is a front perspective view of a plurality of customizable fully-recessed modular cover members, comprising the single fully-recessed modular cover member of FIGS. 4A and 4B, vertically oriented dual-series and triple-series fully-recessed modular base unit cover members, and horizontally oriented dual-series and triple-series fully-recessed modular base unit cover members, wherein each cover member comprises a face cover member, wherein each said face cover member is optionally adapted for selection from a component supply adapted for use for readily customizable and recustomizable design covering of one or more fully-recessed modular base units, whether as a vertically-oriented series of such modular base units, a horizontally-oriented series of such modular base units, or a singular such modular base unit;

[0086] FIG. 4D is a plurality of rear perspective views of the plurality of customizable fully-recessed modular cover members of FIG. 4C;

[0087] FIG. 4E is a front view of a various face cover members coming in different sizes and having different decorative patterns on the face thereof;

[0088] FIG. 4F is a front view of a various face cover members coming in different sizes for radiator-type hydronic systems;

[0089] FIG. 5 shows a side view of a base modular fan coil base unit piped as if it were a singular unit or a top unit, whether a non-recessed, partially-recessed, or fully-recessed modular fan coil unit, and showing how airflow passes through the modular fan coil unit.

[0090] FIG. 6 shows a right front perspective of the modular fan coil base unit of FIG. 5.

[0091] FIG. 7A shows a front view of brackets attached to studs for hanging a modular base unit, whether a non-recessed, partially-recessed, or fully-recessed modular base unit, and whether a fan coil-type modular base unit or a radiator-type of modular base unit;

[0092] FIG. 7B shows a front view of the brackets of FIG. 7A, but with a frame portion only (i.e., without showing the fan coil or radiator portion within the frame portion) of the modular base unit installed on the brackets;

[0093] FIG. 7C shows a front view of brackets like those of FIGS. 7A and 7B, but with frame portions of two side-by-side modular base units installed on the brackets;

[0094] FIGS. 7D-7F each show a right-side perspective view of a bracket like those of FIGS. 7A and 7B, but showing a frame portion of a modular base unit in various stages of a process of being installed on the bracket;

[0095] FIG. 8A shows a right rear perspective view of a non-recessed singular modular base unit system installed on studs, such as either a modular fan coil-type unit system or a modular radiator-type unit system, showing sheetrock removed to allow seeing how such a single unit system aligns with the studs and how piping may be accomplished to the modular base unit system without the pipes showing because they would be covered by the modular cover members;

[0096] FIG. 8B shows a right rear perspective view of a dual horizontally-aligned non-recessed modular base unit system installed on studs, such as either a modular fan coil-type unit system or a modular radiator-type unit system, showing sheetrock removed to allow seeing how such a dual unit system aligns with the studs and how piping may be accomplished to the dual non-recessed modular base unit system without the pipes showing because they would be covered by the modular cover members;

[0097] FIG. 8C shows a right rear perspective view of a triple horizontally-aligned non-recessed modular base unit system installed on studs, such as either a modular fan coil-type unit system or a modular radiator-type unit system, showing sheetrock removed to allow seeing how such a triple unit system aligns with the studs and how piping may be accomplished to the triple non-recessed modular base unit system without the pipes showing because they would be covered by the modular cover members;

[0098] FIG. 8D shows a right rear perspective view of a dual vertically-aligned non-recessed modular base unit system installed on studs, such as either a modular fan coil-type unit system or a modular radiator-type unit system, showing sheetrock removed to allow seeing how such a dual vertically-aligned unit system aligns with the studs and how piping may be accomplished to the dual vertically-aligned non-recessed modular base unit system without the pipes showing because they would be covered by the modular cover members;

[0099] FIG. 8E shows a right rear perspective view of a triple vertically-aligned non-recessed modular base unit system installed on studs, such as either a modular fan coil-type unit system or a radiator-type unit system, showing sheetrock removed to allow seeing how such a triple vertically-aligned unit system aligns with the studs and how piping may be accomplished to the triple vertically-aligned non-recessed modular base unit system without the pipes showing because they would be covered by the modular cover members;

[0100] FIG. 9A shows a front left perspective view of a plurality of different non-recessed modular heating/cooling systems in a room (including single-unit, double-unit, and triple-unit systems), illustrating how differently-designed modular cover members may be implemented as adapted for selection from a component supply adapted for use for readily customizable and recustomizable design coverings of such non-recessed modular base unit systems;

[0101] FIG. 9B shows a front left perspective view of a plurality of different partially-recessed modular heating/cooling systems in a room (including single-unit, double-unit, and triple-unit systems), illustrating how differently-designed modular cover members may be implemented as adapted for selection from a component supply adapted for use for readily customizable and recustomizable design coverings of such fully-recessed modular base unit systems;

[0102] FIG. 9C shows a front left perspective view of a plurality of different fully-recessed modular heating/cooling systems in a room (including single-unit, double-unit, and triple-unit systems), illustrating how differently-designed modular cover members may be implemented as adapted for selection from a component supply adapted for use for readily customizable and recustomizable design coverings of such fully-recessed modular base unit systems;

[0103] FIG. 10 shows an exploded view of an example series of modular piping adapted variously for a single base unit hydronic system, a dual-horizontal base unit hydronic system, and a triple-horizontal base unity hydronic system, wherein water inlets and outlets are shown as being similarly located regardless of whether it is a single, dual-horizontal, or triple-horizontal hydronic system, and wherein the dual-horizontal base unit system and the triple-horizontal base unit system are simply added to a single base unit system, or dual-horizontal base unit system, respectively;

[0104] FIG. 11 shows a representative wiring diagram for a triple modular base unit installation, wherein a thermostat sends signals to the first unit, and that unit passes the signal on to any subsequent units, allowing subsequent units (if any) to operate in unison;

[0105] FIG. 12 shows a condensation drip manifold to allow preferably flexible condensation drip lines from up to three different units to be received and combined into a single output condensation drip line;

[0106] FIGS. 13A-13C show a single base unit hydronic system in three different post-installation design states, wherein in FIG. 13A there is shown a system having a first design of cover member treatment, in FIG. 13B the first design cover treatment is removed showing that the modular base unit remains in-tact and functional, and in FIG. 13C there is shown the same system having a new design treatment, showing that the system is re-customizable, whether the base unit of the system is fully-recessed, partially-recessed, non-recessed (wall mount), all without having to take the base unit system off line;

[0107] FIG. 14A shows an alternative embodiment of modular face cover members for varying sizes of hydronic systems, wherein there is provided a single-unit cover member, a plurality of face cover members comprising a double-unit-vertical cover member, and a plurality of face cover members comprising a triple-unit-vertical cover member, wherein the face cover member for each system appears coherent and unitary, except for where there is a joint between portions of the cover members to be adapted to appear as a continuous looking surface;

[0108] FIG. 14B shows alternative embodiment of modular face cover members for varying sizes of hydronic systems, wherein there is provided a single-unit cover member, a plurality of face cover members comprising a double-unit-horizontal cover member, and a plurality of face cover members comprising a triple-unit-horizontal cover member, wherein the face cover member for each system appears coherent and unitary, except for where there is a joint between portions of the cover members to be adapted to appear as a continuous looking surface of the cover member; and

[0109] FIGS. 15A-15E shows steps of methods of installation of the hydronic systems in accordance with one or more aspects of the disclosure.

DETAILED DESCRIPTION

[0110] Referring to FIGS. 1A-1E, there are provided various views of a modular base unit portion 101 of a customizable, modular, fan coil-type hydronic system 100, which may be adapted for use in an interior area, such as a house, micro-zone or a room, together with well-known connected hydronic components such as a reversible heat pump, a buffer tank, a pump, an air handler, or a boiler (not shown). The modular base unit 101 comprises a heat exchanger 160, with heat transfer fins 161, and within a modular base unit frame 108 adapted preferably for residing alone, or in series groups, such as for systems 200, 300, 202, 302, for example as shown in FIGS. 8B-8F, for greater heating/cooling needs, between studs of the room's wall

[0111] Each modular base unit 101 comprises lower and upper vent holes 170, 175, an electronic controller 110, a drip pan 130, upper and lower air circulating fans 140, 150, with corresponding fan motors 145, 155, piping 115, 120, and a condensation drip line 125.

[0112] Referring more specifically to FIGS. 1A-1C, the modular base unit 101 of FIG. 1A further comprises flanges 105, 106 with slots 90 for fully-recessed attachment to brackets 720 on wall studs 710 (see e.g., FIGS. 1H and 7A-F), modular base unit 101 further comprises flanges 105, 106 with slots 90 for partially-recessed attachment to brackets 720 on wall studs 710 (see e.g., FIGS. 1I and 7A-F, and modular base unit 101 further comprises flanges 105, 106 with slots 90 for non-recessed attachment to brackets 720 on wall studs 710 (see e.g., FIGS. 1J and 7A-F).

[0113] Thus, the base unit portion 101 of FIGS. 1C and 1H is adapted to be completely recessed in the wall between the studs, whereas the modular base unit portion 101 of FIGS. 1D and 1I is adapted to be partially recessed in the wall between the studs, and the modular base unit portion 101 of FIGS. 1E and 1J is adapted to be not recessed (though still residing between the plane of the studs), as in the case of a wall-mounted system 100, 200, 300, 202, 302.

[0114] Each modular base unit 101, 101, 101 is adapted for retaining heated, or alternatively cooled, hydronic fluid in the at least one heat exchanger 160 adapted for being circulated throughout modular base unit by the other connected hydronic components. Also, each modular base unit 101, 101, 101 is adapted for successive repeated linear implementation with an at least optional second modular base unit 101, 101, 101, respectively, preferably of like composition as shown for example in FIGS. 8B-8E. And, while it may not be preferable to combine a fully-recessed modular base unit 101 with a non-recessed 101, or partially-recessed 101, modular base unit, doing so would not necessarily depart from the scope of the system 100, 200, 300, 202, 302, as broadly claimed. Thus, the modular base units 101, 101, 101 are readily adaptable to expansion in use to meet increased heating and cooling needs of the room depending upon its size and other characteristics.

[0115] As shown in FIGS. 1A, 1F, and 10, there are provided different example frame 108, 108 and example piping configurations for various different configurations of system 100, 200, 300, 202, 302 capable of being designed using modular base unit 101, 101, 101. Thus, referring more specifically to FIG. 10, there are shown three different styles of piping: single unit piping 1010-1020 for a hydronic system 100, double unit piping 1030-1040 for a double horizontal hydronic system 200, and triple unit piping 1050-1060 for a triple horizontal hydronic system 300. The piping configuration 115, 120 of FIG. 1A is provided for a top-most modular base unit 101, 101, 101 of a multi-modular base unit hydronic system, and regarding a single modular base unit hydronic system 100, 100, 100 such piping 115, 120 is adaptable for connection to pipes 1010-1020 using connectors 1011, 1021. Piping configuration 117, 116, 120 of FIG. 1F is for an intermediate or lower-most modular base unit 101, 101, 101 of a multi-modular base unit hydronic system such as a double vertical system 202, or a triple vertical system 302, wherein the lower-most modular base unit is adaptable for connection to pipes 1010-1020 using connectors 1011, 1021. Referring additionally to FIGS. 1H-1J, it will be appreciated that for a wall-mount system 101 (as shown in FIG. 1J) the distance at 1081 in FIG. 10 would be longer, whereas for a partially-recessed system 101 (as shown in FIG. 1I) it would be shorter, and for a fully-recessed system 100 (as shown in FIG. 1H) it would be even shorter. Further, it will be appreciated that various modular components of piping and frame types may be mixed and matched to achieve basic designs of scalable systems from such modular frame and piping components.

[0116] Further, pipe 115 of modular base unit 101, 101, 101, 101 is typically used as a hydronic fluid inlet to a system, and pipe 120 of the modular base unit is typically used as a hydronic fluid outlet from the system. The small pipe 125 is provided as a condensation outlet tube.

[0117] In the case of a modular base unit 101 of FIG. 1G, there is provided a radiator style modular base unit. Modular base unit 101 also comprises piping 115, 120, a controller 110, and flanges 105, 106, flanges 105, 106, or flanges 105, 106, depending on whether the modular base unit is adapted for fully-recessed implementation between wall studs, partially-recessed implementation, or non-recessed implementation, respectively and similarly to that described above in terms of the system being fully-recessed, partially-recessed, or non-recessed, by making use of slots 90 as further described in connection with FIG. 7B. In the case of the radiator style modular base unit 101, there are no air circulating fans, condensation drip pan, or condensation drip line, but the modular base unit 101 further comprises a radiator 180 for radiating thermal energy to a face cover member. Further, the various modular piping and frame type considerations discussed previously in connection with the fan coil-types of systems 100, 200, 300, 202, 302 above would apply to similar systems of radiator-types of systems.

[0118] Referring to FIGS. 2A-2F, the system 100, 200, 300, 202, 302 comprises a preferably composite cover member 210, 220, 230, 240, 250, respectively, each comprising a plurality of side edge cover members 216, and a plurality of top and bottom cover members 211 having lower and upper vent holes 270, 275 corresponding with vent lower and upper vent holes 170, 175 of frame member 108, 108 to allow the passage of air therethrough from the fans 140, 150. There are also provided a plurality of, for example four, edge corner members 214. Each cover member 210, 220, 230, 240, 250 further preferably comprises a modular face cover member 213. The edge cover members 211, 216 and the edge corner members 214 may be held together with mating tabs 252 on each edge cover member and corner member allowing screwing or otherwise fastening together of the edge cover members and corner cover members. Further, as shown in FIG. 2E, there are provided tab insert members 254 adapted as one exemplary way to interconnect the face cover member 213 and the edge corner members 214, and hence the other edge members 211, 216.

[0119] Overall, the cover member 210, 220, 230, 240, 250 is adapted to be secured to the modular base unit 101, 101, 101, 101 by way of lower and upper duct members 220, 225 for channeling airflow from the fans 140, 150 to the lower and upper vent holes 270, 275. The duct members 220, 225 of FIG. 2A are held in place, for example, by screws and tabs 261, and they provide one exemplary way of holding the cover member 210, 220, 230, 240, 250 in place relative to the modular base unit, since the duct may be inserted into front portions of upper and lower cavities of frame 108, 108 for retaining the fan members 140, 150. The face cover member 213 further comprises a peripheral edge 217. The peripheral edge 217 may optionally have curved corners to be adapted for use with a single modular base unit 101, 101, 101, 101. Or, the peripheral edge 217 may be optionally adapted for use with an at least optional second modular face cover member 213 in case an optional second modular base unit 101, 101, 101, 101, or third modular base unit, is included in a linear configuration as shown in optionally in FIGS. 14A-14B, depending upon the particular heating and cooling needs of the interior space.

[0120] Preferably, however, there are provided modular unitary face cover members 213, 215, 315, 219, 319, each corresponding to a single face cover member (213), a double horizontal face cover member (215), a triple horizontal face cover member (315), a double vertical face cover member (219), and a triple vertical face cover member (319). As may be seen in FIGS. 2A-2F and 3A-3F, these face cover members 213, 215, 315, 219, 319 may be modularly applicable whether the hydronic system is a partially-recessed system 100 or a non-recessed system 100.

[0121] Further, as may be seen in FIGS. 3A and 3E, there are provided differently-sized edge cover members 311, 316 and corner edge cover members 314, since these cover members for a partially-recessed system 100 would be narrower than for a non-recessed system 100. And, of course, for a fully-recessed system 100 there are not needed any edge cover members or corner edge cover members.

[0122] Thus, in the case of partially-recessed and non-recessed systems 100, 100, there are provided a plurality of contiguous modular edge members 211, 216 and a plurality of modular corner edge members 214 adapted for being interconnected around and relatively to one or more of the peripheries of the modular face cover member 213, 215, 315, 219, 319, or alternatively any second face cover member 213. These modular edge members 211, 216, and modular corner edge members 214 are contiguous in the sense that they align so as to almost appear as though they are a singular, or integral, member, when in fact they are actually comprised of a plurality of modular edge members. Thus, preferably, the plurality of modular edge members 211, 216, and each of the plurality of modular corner edge members 214, form, singularly or in combination with other cover members working all together to form a seemingly integral face cover member 210, 220, 230, 240, 250, 310, 320, 330, 340, 350 (see FIGS. 2C, 2D, 2E, 2G, 3C, 3D, 3E, 3G). The duct members 220, 225 of FIGS. 2A, 2E, 3A, and 3E are held in place, for example, by screws and tabs 261, and they provide one exemplary way of holding the cover member 210, 220, 230, 240, 250, 310, 320, 330, 340, 350 in place relative to the modular base unit, since the duct may be inserted into front portions of upper and lower cavities of frame 108, 108 for retaining the fan members 140, 150.

[0123] The modular edge members and the modular corner edge members may be provided in varying color schemes and exterior pattern designs to give interior designers plenty of options when incorporating the hydronic unit into the existing or changed interior designs of the room. Thus, unlike prior art systems, there is made available the ability to design systems using a plurality of different component supplies (i.e., silver edge members, red edge members, and/or floral pattern face cover membersthus the numbers of possible color combinations for components is great). Such plurality of modular edge members, and the plurality of modular corner edge members, thus form an aesthetically coherent design cover member, irrespective of colors and ornamental designs, for the hydronic system. Still further, the first modular face cover member and the at least optional second contiguous modular face cover member are adapted to be re-customized to achieve one or more alternative other aesthetically coherent designs, irrespective of colors and patterns, for the hydronic system, should the needs of the room change, should the room be remodeled, should new owners with new preferences come along, or simply should the owners change their minds.

[0124] In this way, there are provided modular base units, modular face cover members, edge cover members, and corner cover members, all capable of being selected from any of a plurality of component supplies, thus allowing for modular components being combined to allow simple customization and re-customization of hydronic systems.

[0125] Each modular face cover member 213 may comprise peripheral edges 217, wherein each of the peripheral edges is adapted to be readily customized to achieve, singularly or in combination with other peripheral edges of other face cover members 213, 215, 315, 219, 319, or edge cover members 211, 214, 216, to form an aesthetically coherently designed looking cover member for the hydronic system 100, 200, 300, 202, 302.

[0126] Or, alternatively, as shown in FIGS. 14A and 14B, face cover members 213, 227, 229 may comprise rounded corners on outer corners, but squared-off internal corners as shown for intermediate cover members 229, 239, 227, 237. Thus, in an embodiment, the modular face cover members may have squared-off internal edges, and/or rounded corner edges, as shown in FIGS. 14A and 14B, to allow single-sized face cover members 213 to be used for multiple modular base unit systems 200, 200, 200, 300, 300, 300, 202, 202, 202, 302, 302, 302 (e.g., as shown in FIGS. 9A-9C). Such cover members would appear to have aesthetically coherently designed looking cover members for these respective hydronic systems. Further, it will be appreciated that such modularity is supported for similar radiator-type hydronic systems which are partially-recessed, fully-recessed, or non-recessed.

[0127] Thus, in an embodiment the face cover member is contiguousmeaning that even independent of color and ornamental surface design considerations, the face cover members of a system may comprise a single face cover member, or alternatively are designed to look at least like a contiguous face cover member, 215, 315, 219, 319. Accordingly, users are enabled in choosing from single face cover members 215, 315, 219, 319 that cover two or more base members, or a plurality of face cover members as shown in FIGS. 14A and 14B.

[0128] Similarly, for face cover members 413, 415, 419, 515, 519 for hydronic systems 100, 200, 202, 300, 302, respectively, there are provided a plurality of internal tab members 417 (as shown in FIG. 4B) for both covering up the vents 170, 175 of modular base units 101, since in that manner air would be routed through vents 411 in the cover members, and for engaging the face cover members with the frames 108, 108 of the modular base units 101, 101, all for fully-recessed hydronic systems.

[0129] As shown at FIGS. 2A and 3A, there are provided exemplary tab members 262 for facilitating securing of the cover member 210 (and hence similarly cover members 220, 230, 240, 250, 310, 320, 330, 340, 350) to the wall around base unit members 101, 101.

[0130] Since, as shown in FIGS. 2C, 2F, 3C, 3F, and 4C-4E, there are provided unitary face cover members 213, 215, 315, 219, 319, 413, it is provided that the face cover members may be added with the assistance of an interior designer, if desired, after initial installation of the modular base unit members 101, 101, 101, 101 by an installer, such as by a plumber or other qualified hydronic system installer. Further, the face cover members, are therefore also further adapted to be readily recustomized to achieve an alternative aesthetically coherent design, for example if the design of the room were to change. Thus, as shown in FIGS. 13A-13C, there is provided a system 100 having initially a first cover member 210 having a face cover member 213h as per a first installation as shown in FIG. 13A. Then, perhaps after a number of years, and as shown in FIG. 13B, for example if the room were to be remodeled, or even if the owners of the room simply changed their minds, or the current owners changed their minds, the cover member 210 could be removed, leaving the modular base unit 101 intact, and thereafter as shown in FIG. 13C, for example with the help of an interior designer, a new cover member 210, having perhaps other colors of upper, lower, and side edge cover members 211, 216, and another color and/or pattern design of face cover member 213i that is better suited for the changed room interior design or changed sentiments of owners of the house/room. This greatly lends to the ease of interior design, or change of such in terms of being re-customizable, since the designer is no longer dependent upon having to remove, replace, or reinstall the hydronic system in order to simply change the exterior design treatments of the system to the degree one would have had to do so before.

[0131] Referring specifically to FIG. 8A, there is shown the back side (i.e., with the sheetrock removed to allow viewing of the system) of a hydronic system 100, since it is a single system, having a modular base unit 101 (i.e., a wall-mounted embodiment of the modular base unit), attached to reside between vertical planes of the studs 830 (note that in the wall-mount embodiment the system 100 is preferably located between the studs 830, but it is not recessed. It will be appreciated throughout that where a wall-mounted system is contemplated, it is preferably located between vertical planes defined by the studs, but need not necessarily do so in accordance with the claims hereof, since alternative bracket/hanging members may be devised without departing from the broader aspects of the invention as claimed). The frame 108 for the modular base unit 101 comprises top-type piping 115, 120 (not shown in FIG. 8A). They system 100 further comprises a cover member 210 further comprising side edge cover members 216, top and bottom edge cover members 211, corner edge cover members 214, and a face cover member 213. Pipes 810, 820 are inlet and outlet pipes, respectively, for circulating hydronic fluid to the system 100, and the location of the pipes are such that they would not be visible to persons in the room, since at a lowermost location of the pipes where the pipes extend out of a sole plate 835 they would be hidden behind sheetrock (not shown), whereas the uppermost location of the pipes are hidden behind a lower extent of the cover member 210. Connectors 122 and 124 are used to interconnect the pipes 810, 820 with internal pipes 115, 120 of the modular base unit 101.

[0132] Referring specifically to FIG. 8B, there is shown the back side (i.e., with the sheetrock removed to allow viewing of the system) of a hydronic system 200 comprised of two horizontally-aligned, side-by-side, modular base units 101 (i.e., these are wall-mounted embodiments of the modular base units), attached to reside at multiple locations preferably between vertical planes of studs 830. The frame 108 for each modular base unit 101 comprises top-type piping 115, 120 (not shown in FIG. 8B). The system 200 further comprises a cover member 220 further comprising side edge cover members 216, top and bottom edge cover members 211, corner edge cover members 214, and a face cover member 215. Pipes 810, 825 are inlet and outlet pipes, respectively, for circulating hydronic fluid to the system 200, and the location of the pipes are such that they would not be visible to persons in the room, since at a lowermost location of the pipes where the pipes extend out of a sole plate 835 they would be hidden behind sheetrock (not shown), whereas the uppermost location of the pipes are hidden behind a lower extent of the cover member 220, as also are pipes 840 interconnecting the two modular base units 101. Connectors 122 and 124 are used to interconnect the pipes 810, 820 with internal pipes 115, 120 of the modular base units 101.

[0133] Referring specifically to FIG. 8C, there is shown the back side (i.e., with the sheetrock removed to allow viewing of the system) of a hydronic system 300 comprised of three horizontally-aligned, side-by-side, modular base units 101 (i.e., these are wall-mounted embodiments of the modular base units), attached to reside at multiple locations between vertical planes of studs 830. The frame 108 for each modular base unit 101 preferably comprises top-type piping 115, 120 (not shown in FIG. 8C). The system 300 further comprises a cover member 230 further comprising side edge cover members 216, top and bottom edge cover members 211, corner edge cover members 214, and a face cover member 315. Pipes 810, 850 are inlet and outlet pipes, respectively, for circulating hydronic fluid to the system 300, and the location of the pipes are such that they would not be visible to persons in the room, since at a lowermost location of the pipes where the pipes extend out of a sole plate 835 they would be hidden behind sheetrock (not shown), whereas the uppermost location of the pipes are hidden behind a lower extent of the cover member 230, as also are pipes 840 interconnecting the two modular base units 101. Connectors 122 and 124 are used to interconnect the pipes 810, 850 with internal pipes 115, 120 of the modular base units 101.

[0134] Referring specifically to FIG. 8D, there is shown the back side (i.e., with the sheetrock removed to allow viewing of the system) of a hydronic system 202 comprised of two vertically-aligned, modular base units 101 (i.e., these are wall-mounted embodiments of the modular base units), attached to reside at multiple locations between vertical planes of two studs 830. The frame 108 for the uppermost modular base unit 101 preferably comprises top-type piping 115, 120 (not shown in FIG. 8D), whereas the frame 108 for the lowermost modular base unit 101 comprises base-type, or intermediate-type, piping 117, 116, 120. The system 202 further comprises a cover member 240 further comprising side edge cover members 216, top and bottom edge cover members 211, corner edge cover members 214, and a face cover member 219. Pipes 810, 820 are inlet and outlet pipes, respectively, for circulating hydronic fluid to the system 202, and the location of the pipes are such that they would not be visible to persons in the room, since at a lowermost location of the pipes where the pipes extend out of a sole plate on the floor, they would be hidden behind sheetrock (not shown), whereas the uppermost location of the pipes are hidden behind a lower extent of the cover member 219. Connectors 122 and 124 are used to interconnect the pipes 810, 820 with internal pipes 117, 116, and 120 of the lower modular base unit 101, and internal pipes 115, 120 of the upper modular base unit.

[0135] Referring to FIG. 8E, there is shown the back side (i.e., with the sheetrock removed to allow viewing of the system) of a hydronic system 302 comprised of three vertically-aligned, modular base units 101 (i.e., these are wall-mounted embodiments of the modular base units), attached to reside at multiple locations between vertical planes of two studs 830. The frame 108 for the uppermost modular base unit 101 comprises top-type piping 115, 120 (not shown in FIG. 8E), whereas the frames 108 for the lowermost and intermediate modular base units 101 comprise base-type, or intermediate-type, piping 117, 116, 120 (not shown in FIG. 8E). The system 302 further comprises a cover member 250 further comprising side edge cover members 216, top and bottom edge cover members 211, corner edge cover members 214, and a face cover member 319. Pipes 810, 820 are inlet and outlet pipes, respectively, for circulating hydronic fluid to the system 302, and the location of the pipes are such that they would not be visible to persons in the room, since at a lowermost location of the pipes where the pipes extend out of a sole plate on the floor, they would be hidden behind sheetrock (not shown), whereas the uppermost location of the pipes are hidden behind a lower extent of the cover member 219. Connectors 122 and 124 are used to interconnect the pipes 810, 820 with internal pipes 117, 116, and 120 of the lower modular base unit 101, and internal pipes 115, 120 of the upper modular base unit.

[0136] Referring to FIG. 9A, there is shown a front left perspective view of a plurality of different non-recessed (i.e., wall-mounted) modular heating/cooling systems (from left to right: 302, 202, 100, 200, 300) in a room (comprising triple vertical unit, double vertical unit, single unit, double horizontal unit, and triple horizontal unit systems, respectively), illustrating how differently-designed modular cover members may be implemented as adapted for selection from a component supply adapted for use for readily customizable and recustomizable design coverings of such non-recessed systems. The cover members for the systems are labeled, 250, 240, 210, 220, 230, respectively, and each cover member preferably comprises the individual modular components described in connection with FIGS. 2A and 2B.

[0137] Referring to FIG. 9B, there is shown a front left perspective view of a plurality of different partially-recessed modular heating/cooling systems (from left to right: 302, 202, 100, 200, 300) in a room (comprising triple vertical unit, double vertical unit, single unit, double horizontal unit, and triple horizontal unit systems, respectively), illustrating how differently-designed modular cover members may be implemented as adapted for selection from a component supply adapted for use for readily customizable and recustomizable design coverings of such partially-recessed systems. The cover members for the systems are labeled, 350, 340, 310, 320, 330, respectively, and each cover member preferably comprises the individual modular components described in connection with FIGS. 3A and 3B.

[0138] Referring to FIG. 9C, there is shown a front left perspective view of a plurality of different fully-recessed modular heating/cooling systems (from left to right: 302, 202, 100, 200, 300) in a room (comprising triple vertical unit, double vertical unit, single unit, double horizontal unit, and triple horizontal unit systems, respectively), illustrating how differently-designed modular cover members may be implemented as adapted for selection from a component supply adapted for use for readily customizable and recustomizable design coverings of such fully-recessed systems. The face cover members for the systems (there are no edge cover members for a fully-recessed system) are labeled, 519, 419, 413, 415, 515, respectively, and each face cover member preferably comprises the individual modular components described in connection with FIGS. 4A and 4B.

[0139] Referring now to FIG. 5, there is shown an airflow diagram for a partial fan coil-type modular base unit, having a heat exchanger 160, upper and lower fans 145, 155 in upper and lower respective fan housings 140, 150, a drip pan 130, and inlet and outlet pipes 115, 120 and condensation pipe 125, such as for example would be the case for similar parts of modular base unit 101, 101, 101. Arrows 522, 524, 526, 528 each show a possible direction of airflow through the system perhaps preferred for a heating operation. However, it will be appreciated that the airflow direction may flow in reverse (for example perhaps as preferred for a cooling operation) without departing from the scope of the invention as claimed.

[0140] Referring to FIG. 6, there is shown a hydronic fluid flow diagram for a fan coil-type modular base unit, such as for example modular base unit 101, 101, 101, having a heat exchanger 160, upper and lower fan housings 140, 150, a drip pan 130, and inlet and outlet pipes 115, 120 and condensation pipe 125, such as for example would be the case for similar parts of modular base unit 101, 101, 101. Arrows 622, 624, 626 each show a possible direction of hydronic fluid flow through the system. However, it will be appreciated that the fluid flow direction may be in reverse without departing from the scope of the invention as claimed.

[0141] Referring now to FIGS. 7A-7F, there are shown various view of brackets 720 attached to studs 710 for hanging a modular base unit, whether a non-recessed modular base unit 101, a partially-recessed modular base unit 101, or fully-recessed modular base unit 101, and whether a fan coil-type modular base unit 101, 101, 101 or a radiator-type of modular base unit 101. Each bracket 720 preferably comprises left-most upper and lower hooks 735 and right-most upper and lower hooks 730. Further, each bracket 720 has upper and lower screw holes 725 allowing for mounting of the bracket to the stud with screws. In each of the FIGS. 7A-7C there is shown an outer wall 740.

[0142] To assist with installation of a modular bae unit 101, 101, 101, 101, it can be seen that slots 90 in tabs 105, 106 of frames 108, 108 are aligned with inner hooks (left-most upper and lower hooks 730, and right most upper and lower hooks 735 as shown in FIG. 7B, and allowed to slide down, as shown by the arrows of FIGS. 7D-7F, until the hooks 730, 735 engage upper portions of each of the slots 90 to hold the frames 108, 108 in place

[0143] Referring now to FIG. 11, there is shown a representative wiring system 1100 for a triple modular base unit installation, wherein a thermostat 1105 sends signals to a first controller 1110 via input 1116, and that unit passes the signal on to a second controller 1120 via output 1118 to input 1126, and that second controller passes the signal on to a third controller 1130 via output 1128 to input 1136, allowing the modular base units 101, 101, 101 (where applicable) to all operate in unison. The outputs 1112, 1114, 1122, 1124, 1132, 1134 each provide a needed signal to the upper and lower fans 140, 150 of each of the respective modular base units 101, 101, 101.

[0144] Referring now to FIG. 12, there is shown a condensation drip manifold 1200, mountable via screw holes 1260, 1265 in flanges 1240, 1245, to allow preferably flexible condensation drip lines 125 (see e.g., FIG. 1A) from up to three different modular base units 101, 101, 101, to be received at inputs 1210, 1220, 1230 and combined into a single output condensation drip line 1250 for helping eliminating condensation from the system 100, 200, 300, 202, 302 to an exterior location.

[0145] Referring now to FIGS. 15A-15E, in accordance with another aspect of the disclosure, there is provided a method of installing a hydronic heating and cooling system adaptable to be modularly scalable to meeting heating and cooling needs of a given interior space, in accordance with one or more aspects of the disclosure, the method comprising: [0146] A. Determining the Btu needs and type of heating and cooling system needed to supply the given interior space; [0147] B. Determining a desired configuration of system, whether vertically or horizontally oriented, and whether fully recessed between studs, partially recessed (e.g., approximately ? way) between the studs, or non-recessed; [0148] C. Selecting an appropriate number of modular base units to supply needed heating and cooling for the given interior space, whether a single modular base unit or a plurality of modular base units, from a modular base unit component supply; [0149] D. Determining an appropriate number of modular edge members, if any, and a single appropriate face cover member, whether for covering a single modular base unit or a plurality of modular base units, from modular edge members, modular corner edge members, and modular face cover members, component supplies; [0150] E. Marking locations for installation on a wall of the space to be treated, being sure to align as level the installation holes in the case of a desired horizontally linear arrangement, and installation holes in the case of a desired horizontally-linear arrangement, and anticipating the possibility for a need for a plurality of side-by-side, or a plurality of vertically-stacked, modular base units residing between the studs; [0151] F. Installing hanging brackets onto studs anticipating the possibility for a need for a plurality of side-by-side, or a plurality of vertically-stacked, modular base units residing between the studs; [0152] G. Hanging the appropriate number of base units on the hanging brackets with the base unit frame members located between the studs (at least in the case of fully recessed and partially recessed models); [0153] H. Hooking up pipes and control unit electronics into the selected number of base units; [0154] I. Selecting desired edge cover members, if any, and face cover members from a plurality of edge cover member and face cover member component supplies; [0155] J. Assembling edge cover members, if any, and attaching them to the wall or a base unit, and attaching a face cover member to form an aesthetic coherent (e.g., substantially singular appearing) face and edge hydronic system covering member; [0156] K. Placing the cover member over the base unit(s) such that vent holes in the one or more base units align with vent holes in one of the modular edge cover members and the face cover member to ensure unimpeded airflow through the system; and [0157] L. Securing the cover member onto the base units.

[0158] In accordance with another aspect of the disclosure, as shown in FIG. 15C, the method of installing the modular hydronic heating and cooling system further comprises the additional steps, M, after initial installation, of removing an existing cover member, and determining an aesthetically pleasing, in terms of color and design, face cover member and correspondingly aesthetically pleasing edge cover members, and selecting the same from a plurality of modular component supplies to account for changes in room design, system design, and or personal user preference. Thus, it may be seen that, in accordance with an aspect of the disclosure, this method of installing the modular hydronic system enables re-customization and thus enhances the numbers of options available to customers in customizing the appearance of their systems in light of other interior design considerations.

[0159] In accordance with yet another aspect of the disclosure, as shown in FIG. 15D, in the case of the method of installing a modular hydronic system that is to be fully-recessed between the studs, the step K. of placing the cover member over the one or more base units further comprises the step of simultaneously aligning and inserting normally-oriented tabs attached on an inner surface of the selected face cover member so that the tabs cover upper and lower vent holes in frame portions of the one or more base units thus effectively re-routing ventilation of the system to the pass through vent holes in the face cover member. This aspect of the disclosure allows usage of the same base unit for each wall-mount, partially-recessed (e.g., approximately ? way recessed in the wall), and fully-recessed systems, the base units differing from one another only insofar as their respective mounting tabs are located at different locations (forward and aft) on their side frames. This aspect of the disclosure teaches to further facilitate customer choice in customizability of design and further helps the cause of modularity since a single type of base unit may be used, each type of base unit differing from the others only by the location of their mounting tabs on the base unit side frames.

[0160] When installing a fully-recessed system or a partially-recessed system, as shown in FIG. 15E, the step K. of placing the cover member over the base unit(s) further comprises the step of simultaneously aligning and inserting duct(s) of the cover members above an upper vent of the modular base unit and below a lower vent of the modular base unit, to help hold the cover member in place relative to the modular base unit. This aspect of the disclosure also lends to modularity of the system since the same base unit may be used for each wall-mount, partially-recessed, and fully-recessed systems, the base units differing from one another only insofar as their respective mounting tabs are located at different locations (forward and aft) on their side frames. This aspect of the disclosure teaches to further facilitate customer choice in customizability of design and further helps the cause of modularity since a single type of base unit may be used, each type of base unit differing from the others only by the location of their mounting tabs on the base unit side frames.

[0161] Thus, it will be appreciated that the number of component supplies for the base units may comprise a plurality of different supplies of base units with tabs at the rear of the side frames, or the back of the frames, of the base units, at mid-way on the side frames, or at the front on the side frames, to allow for easy selection and supply (i.e., from a catalog for supplies) depending on a chosen design, whether non-recessed (wall mounted), partially-recessed, or fully-recessed).

[0162] Those skilled in the art will recognize the inventive principles disclosed are not limited to the embodiments disclosed herein, and that various aspects of the disclosed embodiments may be combined to achieve additional embodiments. Further, those skilled in the art with the aid of this disclosure will appreciate that the aesthetics of the trim (e.g., the edge cover members, the corner edge cover members, and the face cover member) are both enhanced, both in terms of appearance and ease of installation, by the overall modularity and customizability of the base units of the system and the trim members. Thus, it will be appreciated that, because of the modularity and readily customizable nature of the modular components of the disclosed hydronic systems herein, different color schemes for trim (whether edge members, corner edge members, or face cover members) are swappable from one system to the next, and regarding the edge and corner edge members regardless of the size of a partially-recessed, or non-recessed, system, to facilitate coordination by an interior design professional with chosen other d?cor of the given interior space. Because the system is modular, it may be scaled to enhance, or reduce, capacity, all without changing the dimensions of the base units, the edge and corner edge members, and optionally even the face cover members of the system.

[0163] In the preceding description, numerous details were set forth. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without some of these specific details. Additionally, one of ordinary skill in the art will recognize the inventive principles disclosed are not limited to the embodiments disclosed herein, and that various aspects of the disclosed embodiments may be combined to achieve yet additional embodiments.

[0164] While a preferred embodiment of the present disclosure has been shown and described, it will be apparent to those skilled in the art that many changes and modifications may be made without departing from the claimed subject matter in its broader aspects. For example, it will be appreciated that one of ordinary skill in the art may mix and match the various components of the various embodiments of the claimed subject matter without departing from the true spirit of the claims. Thus, it will be appreciated that a portion, portions, or all of the modular customizable hydronic heating and cooling system may be comprised of, for example, radiator units, fan-coil-type units, combined heating and cooling units, exclusively heating units or cooling units, and whereas in a preferred embodiment any of these types of systems is capable of being customized and re-customized, the system is not limited to any one such type of system. The appended claims are therefore intended to cover many changes and modifications as may fall within the true spirit and scope of the invention.