Patent Grant
12129869
This disclosure relates generally to support systems for hanging apparatuses. More particularly, this disclosure relates to ventilation fan hanger brackets and installation systems such as, but not limited to, bathroom ventilation fan hanger brackets and installation systems.
Ventilation fans such as bathroom ventilation fans are generally installed in a ceiling. Typically, the ventilation fans are recessed into the ceiling. Installation of the ventilation fans can be difficult as the ventilation fans are installed overhead.
In some embodiments, an assembly includes a first bracket. In some embodiments, the first bracket includes a first member. In some embodiments, the first member includes a plurality of fingers and a first channel between the plurality of fingers. In some embodiments, the first channel includes a plurality of teeth. In some embodiments, a first flange extends from the first member and includes a first engagement surface. In some embodiments, the assembly includes a second bracket. In some embodiments, the second bracket includes a second member. In some embodiments, a third member is spaced from the second member. In some embodiments, a second channel is formed between the second member and the third member. In some embodiments, a second flange extends from the second member on an opposite side of the second member from the third member. In some embodiments, the second flange includes a second engagement surface. In some embodiments, in an installed configuration, the first bracket is secured to the second bracket; the first engagement surface faces the second engagement surface; and the plurality of fingers are inserted into the second channel.
In some embodiments, the first bracket and the second bracket are different colors.
In some embodiments, at least one of the first bracket or the second bracket are made of plastic.
In some embodiments, the first member and the first flange are made of a single piece, unitary construction.
In some embodiments, the second member and the second flange are made of a single piece, unitary construction.
In some embodiments, the second channel includes a lock. In some embodiments, in the installed configuration, the plurality of teeth engage the lock.
In some embodiments, the plurality of teeth are symmetrical and disposed on opposite sides of the first channel.
In some embodiments, a ventilation fan assembly includes a housing. In some embodiments, the housing includes a plurality of apertures. In some embodiments, an installation assembly includes a first bracket. In some embodiments, the first bracket includes a first member. In some embodiments, the first member includes a plurality of fingers and a first channel between the plurality of fingers. In some embodiments, the first channel includes a plurality of teeth. In some embodiments, a first flange extends from the first member and includes a first engagement surface. In some embodiments, the installation assembly includes a second bracket. In some embodiments, the second bracket includes a second member. In some embodiments, a third member is spaced from the second member. In some embodiments, a second channel is formed between the second member and the third member. In some embodiments, a second flange extends from the second member on an opposite side of the second member from the third member. In some embodiments, the second flange includes a second engagement surface. In some embodiments, in an installed configuration, the second bracket is inserted through a first of the plurality of apertures; the first bracket is secured to the second bracket; the first engagement surface faces the second engagement surface; and the plurality of fingers are inserted into the second channel.
In some embodiments, the second bracket is secured to the housing in the installed configuration.
In some embodiments, the first bracket is slidably engaged with the second bracket in the installed configuration.
In some embodiments, the second bracket is secured to the housing by a snap-fit connection.
In some embodiments, the ventilation fan assembly includes a plurality of installation assemblies. In some embodiments, the plurality of installation assemblies includes four installation assemblies.
In some embodiments, the ventilation fan assembly includes a fan cover.
In some embodiments, the first member and the first flange are made of a single piece, unitary construction.
In some embodiments, the second member and the second flange are made of a single piece, unitary construction.
In some embodiments, the second channel includes a lock, and wherein in the installed configuration, the plurality of teeth engage the lock.
In some embodiments, the plurality of teeth are symmetrical and disposed on opposite sides of the first channel.
In some embodiments, a method includes installing a first bracket into an aperture in a housing of a ventilation fan assembly. In some embodiments, the method includes resting an engagement surface of a flange of the first bracket on an upper surface of a ceiling panel. In some embodiments, the method includes inserting a second bracket into a channel of the first bracket until an engagement surface of the second bracket engages with a lower surface of the ceiling panel. In some embodiments, the lower surface is opposite the upper surface.
In some embodiments, the method includes installing a fan cover to the housing.
References are made to the accompanying drawings that form a part of this disclosure and that illustrate embodiments in which the systems and methods described in this Specification can be practiced.
Like reference numbers represent the same or similar parts throughout.
Ventilation fans are generally installed in a ceiling of, for example, a bathroom or the like. An installation process for the ventilation fans can be challenging because of working overhead. Additionally, the ventilation fan is inserted through a hole in the ceiling. As a result, it is important to minimize an outer extent of the ventilation fan assembly.
Embodiments of this disclosure are directed to ventilation fan assemblies and installation assemblies for ventilation fans. The embodiments described herein include a plurality of brackets in which a first of the brackets can be secured to a housing of the ventilation fan and a second of the brackets can be securely engaged with the first of the brackets to secure the ventilation fan to the ceiling or other surface in an installed configuration. The embodiments described can advantageously reduce an amount of effort in installing a ventilation fan. Some embodiments can advantageously reduce an amount of time required to install a ventilation fan.
The ventilation fan assembly 10 includes a fan housing 12 and a fan cover 14. The fan housing 12 is generally disposed within the ceiling of the room and the fan cover 14 is disposed below the ceiling. As a result, the fan cover 14 is visible to a person within the room in which the ventilation fan assembly 10 is disposed.
The ventilation fan assembly 10 also includes a mounting plate 16 that is configured to be secured to the fan housing 12 and the fan cover 14. An airflow outlet 18 is provided from the fan housing 12 and configured to be connected to a duct (not shown) to exhaust the air drawn through the fan housing 12 from the building in which the ventilation fan assembly 10 is installed.
The example ventilation fan assembly 10 includes a plurality of installation assemblies 20. The installation assemblies 20 are configured to be secured to the fan housing 12 and a ceiling panel 22. The ceiling panel 22 can be, for example, drywall or the like. The installation assemblies 20 can also be configured to be secured to the mounting plate 16. In some embodiments, the installation assemblies 20 can be configured to engage with the fan cover 14 as well. The installation assemblies 20 are shown and described in additional detail below. In some embodiments, a single installation assembly 20 may be sufficient to secure the fan housing 12 to the ceiling panel 22 (e.g., in conjunction with other support features). In other embodiments, such as the embodiment illustrated in
In operation, the ventilation fan assembly 10 is configured to draw an inlet airflow AI through the fan cover 14 and output an outlet airflow AO from the outlet 18.
The ventilation fan assembly 10 can include one or more mounting brackets 24. For example, the mounting bracket 24 can be used to secure the ventilation fan assembly 10 to, for example, a rafter or other stud in the ceiling of the room in which the ventilation fan assembly 10 is installed.
Generally, the ventilation fan assembly 10 is installed in a location that is overhead of the installer (i.e., in a ceiling). It can be cumbersome to install traditional ventilation fans. The installation assemblies 20 are configured to reduce an amount of effort to install the ventilation fan assembly 10 and to reduce an amount of time to complete the installation of the ventilation fan assembly 10.
It is to be appreciated that the ventilation fan assembly 10 includes additional features that are unrelated to installation of the ventilation fan assembly 10, and therefore not described in detail herein. For example, the ventilation fan assembly 10 includes a blower assembly disposed within the fan housing 12.
As illustrated in
The first bracket 26 and the second bracket 28 are separate pieces that can be removably secured to each other, in some embodiments. To enable insertion of the fan housing 12 into the ceiling, the first bracket 26 and the second bracket 28 can be removable from the fan housing 12.
In some embodiments, the second bracket 28 can be secured to the fan housing 12 when the fan housing 12 is above the ceiling. For example, In some embodiments, the second bracket 28 can be snap fit to the fan housing 12. It is to be appreciated that it is possible to attach the second bracket 28 to the fan housing 12 via mechanisms other than a snap fit connection. For example, In some embodiments, the second bracket 28 can be secured to the fan housing 12 with a mechanical fastener such as, but not limited to, a screw, a bolt, or the like. In some embodiments, the second bracket 28 can also be secured to the fan housing 12 via other methods such as, but not limited to, adhesives, adhesive tapes, or the like.
The first bracket 26 can be secured to the second bracket 28. In some embodiments, the first bracket 26 can be slidably connected to the second bracket 28. In some embodiments, the first bracket 26 can be detached from the second bracket 28 such as, for example, to uninstall the ventilation fan assembly 10. In such embodiments, the first bracket 26 can also be removed from the fan housing 12.
It is to be appreciated that there are two installation assemblies 20 visible in
A distance L1 between the first bracket 26 and the second bracket 28 can be varied according to an installation. For example, the ceiling panel 22 can have a different thickness depending upon the room in which the ventilation fan assembly 10 is being installed. As such, the distance L1 between the first bracket 26 and the second bracket 28 can be adjustable to account for such variations between rooms and between houses. As a result, the installation assemblies 20 may be used for different installation locations without requiring different parts.
For simplicity of parts, the first bracket 26 and the second bracket 28 for each of the installation assemblies 20 can be identical to each other, in some embodiments. That is, the first bracket 26 and the second bracket 28 can be interchangeable across various installation locations of the ventilation fan assembly 10.
In some embodiments, the first bracket 26 and the second bracket 28 can be made of the same material as each other. In some embodiments, the first bracket 26 and the 28 can be made of different materials from each other. In some embodiments, the first bracket 26 and the second bracket 28 can be made of plastic. In some embodiments, the first bracket 26 and the second bracket 28 can be color coded. As a result, for example, the first bracket 26 and the second bracket 28 can be easily identified to reduce an amount of effort in installing the ventilation fan assembly 10.
The first bracket 26 includes a member 30 having a flange 32 extending therefrom. The member 30 and the flange 32 can be a single piece, unitary construction. As used herein, a single piece, unitary construction means that the member 30 and the flange 32 are integrally formed together, not separate pieces joined together. As such, there are no mechanical fasteners, adhesives, combinations thereof, or the like, between the member 30 and the flange 32. In some embodiments, the single piece can include multiple materials integrally formed. For example, the first bracket 26 can be injection molded, 3D printed, or the like. The flange 32 includes an engagement surface 34. The engagement surface 34 is configured to engage with the ceiling panel 22 when the ventilation fan assembly 10 is in the installed configuration. As such, the engagement surface 34 can be a planar surface.
The member 30 can include finger 36 and finger 38. The fingers 36, 38 can be configured to be flexible and resilient so that a channel 40 formed between the finger 36 and the finger 38 can be engaged with the second bracket 28. The channel 40 can be, for example, triangular in shape so that when installed, the first bracket 26 is secured in place to the second bracket 28. The channel 40 includes symmetrical teeth 42 that are configured to lock in in place when installed to the second bracket 28. As a result, the first bracket 26 can be moved relative to the second bracket 28 when installing the ventilation fan assembly 10 and the first bracket 26 automatically engages with the second bracket 28 to prevent the ventilation fan assembly 10 from falling. The fingers 36, 38 are flexible to accommodate this engagement. In some embodiments, the flexibility of the fingers 36, 38 can also make the first bracket 26 removable from the second bracket 28 to, for example, uninstall the ventilation fan assembly 10 from the ceiling.
The second bracket 28 includes a member 46 having a flange 48 extending therefrom. The member 46 and the flange 48 can be a single piece, unitary construction. As used herein, a single piece, unitary construction means that the member 46 and the flange 48 are integrally formed together, not separate pieces joined together. As such, there are no mechanical fasteners, adhesives, combinations thereof, or the like, between the member 46 and the flange 48. In some embodiments, the single piece can include multiple materials integrally formed. A member 50 protrudes from the member 46 in the direction opposite the flange 48. The member 50 is spaced from the member 46, creating a plurality of channels 52 between the member 46 and the member 50. The flange 48 includes an engagement surface 54 configured to engage the ceiling panel 22 in the installed configuration. The engagement surface 54 can be a planar surface.
The flange 48 is spaced from the member 46 by a gap 56. The gap 56 is such that the member 46 is on a first side of the fan housing 12 and the flange 48 is on an opposite side of the fan housing 12 when in the installed configuration. That is, the flange 48 is inserted into an aperture in the fan housing 12 and snap fit into place. The channels 52 include a lock 58. The lock 58 includes an engagement surface 60 that engages with the symmetrical teeth 42 of the first bracket 26. The lock 58 also includes a ramped portion 62 so that the symmetrical teeth 42 can move over the lock 58 and into engagement with the engagement surface 60 when in the installed configuration.
In the illustrated embodiment, the installation assemblies 20 are shown installed in the fan housing 12 and with the first bracket 26 and the second bracket 28 secured together. In the illustrated embodiment, the ventilation fan assembly 10 includes four installation assemblies 20. It is to be appreciated that this is an example and the number of installation assemblies 20 can vary above or below four.
The first bracket 26 includes a portion that is inside an interior of the fan housing 12 and a portion that is outside the fan housing 12. Similarly, the second bracket 28 includes a portion that is inside the interior of the fan housing 12 and a portion that is outside the fan housing 12. More specifically, the member 50 is disposed on a first side of housing wall 70 (i.e., the interior of fan housing 12) and the flange 48 protrudes from the housing wall 70 via an aperture 72 (i.e., outside the fan housing 12). The member 30 is disposed on a first side of the housing wall 70 (i.e., the interior of fan housing 12) and the flange 32 protrudes beyond the housing wall 70 (i.e., outside the fan housing 12). The flange 32 does not extend through the fan housing 12, but instead extends in a parallel manner to the flange 48 at a location that is outside of the housing wall 70. That is, the housing wall 70 has an extent that is located between the flange 48 and the flange 32 when the installation assemblies 20 are in the installed configuration. The distance between the flange 48 and the flange 32 is adjustable based on a thickness of the ceiling panel 22 (not shown in
Additionally, the ceiling panel 22 (not shown in
The method 100 includes, at block 102, installing a bracket (e.g., second bracket 28) into an aperture in a housing (e.g., fan housing 12) of a ventilation fan assembly. Block 102 can include installing all brackets into the housing.
At block 104, the method 100 may include resting an engagement surface (e.g., engagement surface 54) of the bracket on an upper surface of a ceiling panel (e.g., ceiling panel 22).
At block 106, the method 100 may include inserting a bracket (e.g., first bracket 26) into a channel (e.g., channels 52). The member is inserted until an engagement surface (e.g., engagement surface 34) engages with a lower surface (e.g., as visible in the installation location) of the ceiling panel. Block 106 can include installing all brackets into the corresponding channels.
At block 108, the method 100 may include installing a fan cover (e.g., fan cover 14) over the ventilation fan assembly.
The terminology used herein is intended to describe embodiments and is not intended to be limiting. The terms “a,” “an,” and “the” include the plural forms as well, unless clearly indicated otherwise. The terms “comprises” and/or “comprising,” when used in this Specification, specify the presence of the stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, and/or components.
It is to be understood that changes may be made in detail, especially in matters of the construction materials employed and the shape, size, and arrangement of parts without departing from the scope of the present disclosure. This Specification and the embodiments described are examples, with the true scope and spirit of the disclosure being indicated by the claims that follow.
This application is a continuation of U.S. application Ser. No. 17/371,808, filed on Jul. 9, 2021, and issued as U.S. Pat. No. 11,619,241, the entire contents of which are hereby incorporated by reference.
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| Child | 18130379 | US |
