Rough-in box for high wall minisplit (ductless) airconditioners

Abstract

An evaporator rough-in box includes a flat panel having a first score mark by which the flat panel can be folded between a front wall and a top wall of the rough-in box, and a second score mark by which the flat panel can be folded between the front wall and a bottom wall of the rough-in box. The front wall has an opening through which an interior of the rough-in box can be accessed, the opening being covered by a removable cover plate. Left and right ends of the top and bottom walls include extension pieces bendably attached to central portions of the top and bottom walls to form mounting brackets. The central portions include score marks that delineate knock-out holes by which a lineset and a drain line can be installed to the rough-in box. A drain fitting is attached to the knock-out hole of the drain line.

Claims

1. An evaporator rough-in box comprising: a substantially flat panel having (i) a first score mark by which the flat panel can be folded between a front wall and a top wall of the rough-in box, (ii) a second score mark by which the flat panel can be folded between the front wall and a bottom wall of the rough-in box, and (iii) an opening in the front wall through which an installer can access an interior of the rough-in box when installing an evaporator with which the rough-in box is to be used; left and right ends of the top wall including top wall extension pieces that are bendably attached to a central portion of the top wall to form mounting brackets by which the left and right ends of the top wall can be attached to adjacent studs of a wall in which the rough-in box is to be mounted; left and right ends of the bottom wall including bottom wall extension pieces that are bendably attached to a central portion of the bottom wall to form mounting brackets by which the left and right ends of the bottom wall can be attached to the adjacent studs of the wall in which the rough-in box is to be mounted; hole-forming score marks formed in the central portions of the top and bottom walls, the hole-forming score marks delineating knock-out holes in the central portions of the top and bottom walls by which parts of the central portions can be removed to form holes by which a lineset and a drain line can be installed to the rough-in box; a drain fitting that is removably attachable to one of the knock-out holes by which the drain line is installed to the rough-in box; and a cover plate that is removably attached to the front wall to cover the opening in the front wall.

2. The evaporator rough-in box according to claim 1, wherein: the front wall includes a raised frame that protrudes from the front wall, the opening formed in the raised frame.

3. The evaporator rough-in box according to claim 2, wherein: the raised frame includes mounting holes by which the cover plate is attached to the rough-in box.

4. The evaporator rough-in box according to claim 1, wherein: the front wall includes mounting holes by which the cover plate is attached to the rough-in box.

5. The evaporator rough-in box according to claim 1, wherein: the top and bottom walls are identically configured so that the central portion of each of the top and bottom walls has a first one of the hole-forming score marks delineating a first hole for the lineset and a second one of the hole-forming score marks delineating a second hole for the drain line.

6. The evaporator rough-in box according to claim 1, wherein: at least one of the left and right extension pieces of both of the top and bottom walls includes score lines by which the at least one of the left and right extension pieces can be folded for mounting of the rough-in box between the adjacent studs spaced from each other by either a first distance or a second distance greater than the first distance.

7. The evaporator rough-in box according to claim 1, wherein: both of the left and right extension pieces of both of the top and bottom walls include score lines by which the left and right extension pieces can be folded for mounting of the rough-in box between the adjacent studs spaced from each other by either a first distance, a second distance greater than the first distance, or a third distance greater than the second distance.

8. The evaporator rough-in box according to claim 1, wherein: the left and right extension pieces of both of the top and bottom walls include mounting holes by which the left and right extension pieces can be attached to the adjacent studs of the wall in which the rough-in box is mounted.

9. The evaporator rough-in box according to claim 1, further comprising: a removable cap that is removably attached to a first end of the drain fitting.

10. The evaporator rough-in box according to claim 9, wherein: the removable cap is removably attached to an interior end of the drain fitting.

11. The evaporator rough-in box according to claim 1, wherein: an interior end of the drain fitting includes a quick connection.

12. The evaporator rough-in box according to claim 1, wherein: the substantially flat panel is made from a plastic material.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a view of an embodiment of the rough-in box in the unfolded (shipping) state as seen from the inside surfaces of the box.

(2) FIG. 2 is a view similar to FIG. 1, but as seen from the outside surfaces of the box.

(3) FIG. 3 shows the FIG. 1 rough-in box with the bottom surface folded into the installation position.

(4) FIG. 4 shows the FIG. 1 rough-in box with the bottom and top surfaces folded into the installation position.

(5) FIG. 5 is similar to FIG. 4 and shows the extension pieces (mounting brackets) of the top and bottom surfaces configured for mounting the box between studs that are spaced apart by a first, smaller distance (for example, 16 inches).

(6) FIG. 6 is similar to FIG. 5 but shows the extension pieces (mounting brackets) on one side of the top and bottom surfaces configured differently from the extension pieces on the other side for mounting the box between studs that are spaced apart by a second distance that is larger than the first distance (for example, 20 inches).

(7) FIG. 7 is similar to FIG. 6 and shows the drain fitting mounted to the bottom surface of the rough-in box.

(8) FIG. 8 is similar to FIG. 7 and also shows the quick connection structure for connecting a drain hose to the drain fitting on the inside of the rough-in box.

(9) FIG. 9 shows the faceplate attached to the front surface of the rough-in box as viewed from the inside of the rough-in box.

(10) FIG. 10 shows the faceplate attached to the rough-in box as viewed from the outside of the rough-in box.

DETAILED DESCRIPTION OF EMBODIMENTS

(11) FIGS. 1-10 show a rough-in box 100 according to one exemplary embodiment. Once mounted between two studs, the rough-in box will hold certain components of a mini-split air conditioner system, such as a lineset, drainage components and optionally a pump if collected condensate will need to flow upward to exit the rough-in box. See, for example, U.S. Pat. No. 9,841,209, the entire contents of which is incorporated herein by reference.

(12) The rough-in box 100 is formed from a single, substantially flat panel which, utilizing score marks at various predetermined places on its surface, enables it to be folded up into a 3 sided (front, top, bottom) box shape on the construction site. The score marks also enable the box to be used for a nominal 4 inch thick wall, or, when required, to be configured for a 6 inch thick wall.

(13) The front surface 110 of the box 100 incorporates a raised frame 111 that is ½ inch high (see FIG. 2) so that when the box is installed in the studs, the frame 111 will protrude ½ inch from the stud surface to provide a reference point for the sheetrock installer. The frame 111 surrounds a large opening 112 through which installers can access the lineset and other components (not shown) that will be housed within the box. The front surface of the frame will be flush with the exterior surface of the sheetrock on the front of the wall.

(14) The frame 111 incorporates two mounting holes 113 which enable a plastic cover plate 200 (see FIGS. 9 and 10) to be attached to the box after installation, to protect the contents of the box.

(15) The top 150 and the bottom 130 of the box 100 can be identically configured with multiple score marks (knockouts) 152 (see FIG. 2) which enable the installer to easily select the optimum point for the lineset to enter the box, either from the top or from the bottom. Referring to FIG. 2, reference numeral 152 shows an example of where the score marks were used to knockout (form) a hole, and reference numeral 152′ shows an example of where the score marks have not been used to knockout (form) a hole.

(16) The top 150 and bottom 130 of the box also incorporate multiple round score marks 132 and 132′ (knockouts), which enable the installer to select the drainage point which best suits the particular installation requirements. Referring to FIG. 2, reference numeral 132 shows an example of where the score marks were used to knockout (form) a hole, and reference numeral 132′ shows an example of where the score marks have not been used to knockout (form) a hole. The knockouts can be sized to accommodate a ¾ inch or a ½ inch PVC or copper pipe adapter according to the requirements of the installer.

(17) The top 150 and the bottom 130 preferably are identical so that the entire assembly is fully reversible and can be installed in any orientation.

(18) Both left and right ends of the top 150 and bottom 130 of the box incorporate extension pieces 136A, 136B, 156A, 156B (see FIG. 5) which function as mounting brackets for the box 100. The extension pieces 136A, 136B, 156A, 156B are predrilled to have holes 154 (see FIG. 4) for receiving screws or bolts, for example, and are scored in multiple places to enable the brackets to be configured for use in studs at 16 inch or 24 inch centers and also to be adjusted to suit the orientation of metal studs. For example, as shown in FIG. 4, the score mark 155 divides the extension piece 156A into two smaller extension pieces 157A, 158A. In addition, score mark 153 is provided between the extension piece 156A and the remainder of the top surface 150. Such structure enables the extension pieces to be configured (bent) into different orientations as shown in FIGS. 5 and 6, for example, for use with varying stud spacings. As shown in FIG. 6, one of the extension pieces 136A is bent along its central score mark so that the smaller extension pieces 137A and 138A extend in different directions that are perpendicular to each other. The same is done for the extension piece 156A as shown in FIG. 6. The FIG. 6 configuration is suitable for mounting between studs that are farther from each other than in the FIG. 5 configuration. Furthermore, if the extension pieces on both left and right sides of the box are bent at their central score marks, the box can be mounted between studs having an even larger spacing. For example, the FIG. 5 configuration could be suitable for a 16 inch stud spacing, whereas the FIG. 6 configuration could be suitable for a 20 inch stud spacing. In addition, if the extension pieces on both left and right sides of the box are bent at their central score marks (a configuration not shown in the drawings), such a configuration could be suitable for a 24 inch stud spacing.

(19) The box 100 also comes with a ¾ inch drain fitting 180 (see FIGS. 7-10) which is supplied loose to enable it to be installed at whatever point is most convenient for the external and/or internal drain connection. The part of the drain fitting 180 which is inside the box includes a quick connection 190 for the drain hose from the evaporator and is configured to provide either a horizontal or vertical connection.

(20) The part of the drain fitting outside the box is also configured to provide a vertical or horizontal connection for the drainage line.

(21) It is preferable that the drain fitting be supplied with a removable protective cap 300 (see FIG. 9) attached to the drain fitting, for example, by a strap 305, to prevent debris from building operations from entering the drain line, which would comprise its integrity. The cap 300 preferably is fitted to the end of the fitting that is located inside the box after installation (i.e., to the quick connection 190). The cap 300 is then removed from the fitting when the drain hose from the evaporator is attached to the interior end of the drain fitting during the installation process of the evaporator. The protective cap can be in any shape, in any material and can be in the form of a loose cap which is attached to the exposed end of the drain fitting which is inside the box. The protective cap can be a friction fit, snap fitted, bayonet fitted, screwed on or use any other convenient means of attachment to the drain fitting which would enable it to be quickly and easily removed. Alternatively, the cap could be molded on to the exposed end of the drain fitting which is inside the box and then removed while the drain hose from the evaporator is being attached to the interior end of the drain fitting during the installation process of the evaporator. Whichever of the above methods is used, it is important that the cap has to be removed prior to the drain hose from the evaporator being attached to the interior end of the drain fitting inside the box, and thus the design of the cap must specifically preclude any possibility that the drain hose could be attached without removing the cap. Accordingly, the configuration of the cap, in any embodiment, must be such that it is impossible to attach the drain hose from the evaporator to the interior end of the drain fitting without removing the cap.

(22) Rough-in boxes according to the invention can be fabricated from any kind of plastic, or any other kind of non metallic material including fiberglass or carbon fiber and can be produced by injection molding, vacuum molding, rotational molding, blow molding, printing or any other method of fabrication.

(23) Rough-in boxes according to the invention can also be fabricated, pressed, printed or molded from any kind of metal.

(24) The box can be square or rectangular in form or it could also be round, triangular or any other geometric shape which does not interfere with the required function.

(25) As a secondary objective is to provide a definitive framed opening for the sheetrock installer, it is preferable for the box to have a front surface with an opening which protrudes through the sheetrock.

(26) However, an alternative method makes it possible that the front surface could be supported to the studs either by a number of brackets along the top, bottom, or at either or both ends.

(27) Another alternative method could have the front surface of the box supported to the studs by two endplates only, in which case the top and bottom surfaces could be eliminated.