Patent Grant
10352032
Not applicable.
This application relates to trench drains used to transport liquid to a drainage sewer. More specifically, this application relates to an improved trench drain cross-bar that can be more easily installed to support the walls of the trench, as well as a clip attachment for reversibly securing a grate onto a cross-bar.
Trench drains are used where extensive amounts of liquid must be moved from one place to another. Trench drains generally transport the liquid to a drainage sewer or some other drainage reservoir. Typically, trench drains are U-shaped or V-shaped troughs and are installed adjacent to either roadways or buildings.
Trench drain systems include several basic designs: concrete, metal and plastic. Generally, concrete trench drain systems use forms. The forms are placed in a ditch dug in the ground. Concrete is then poured around the forms, which are removed after the concrete has set. Trench drain systems made in accordance with this method or similar methods result in relatively expensive systems due to the cost of installing and removing the forms.
Many of the expenses associated with these prior art trench drain systems have been overcome by the advent of polymeric trench drains, which can be left in place after the concrete has been poured in place. These trench drains perform two functions. First, they act as a form for the concrete; and second, they act as a liner. The manufacture and transportation costs with this type of trench drain are significantly less than the other types of trench drains.
Polymeric materials are somewhat flexible and may bow in during their casting into concrete. To this end, internal supports might be employed to secure the walls in place. However, assembly of such supports into the trench drain can pose a fabrication and/or assembly problem.
Further still, once cast in place, the trench drain is typically covered by a grate. In many instances, the grate may simply rest in the upper opening, but it may be preferable that the grate be secured in place. However, such securing can often require significant labor on-site after installation to put the grate in place. In many instances, with the trench drain already in place, it can be difficult for an installer to use tools at or below ground level to secure the grate in place.
Various improvements to trench drains are described herein including improvements relating to reinforcement cross-bars and fixation mechanisms for attaching the grate to the reinforcement cross-bars. It will be appreciated that the various improvements could potentially be used separate from one another or in various combinations and permutations with one another.
According to one aspect, a trench drain assembly is provided that comprises a pair of trench sidewalls, a cross-bar, a grate, and a grate clip assembly. The cross-bar extends between the pair of trench sidewalls. The grate spans between the pair of trench sidewalls and extends along an axial direction of the trench drain assembly. The grate clip assembly includes a grate clip and a fastener. The grate clip has a pair of deformable catch arms connected by a bridging section. The fastener is coupled to the grate clip and secures the grate to the grate clip. The pair of deformable catch arms are configured to reversibly engage the cross-bar.
In some forms, the grate can be secured between the fastener and the grate clip and, more specifically, the grate can be secured or compressed between the fastener and an upper surface of the bridging section of the grate clip. In other forms, the grate clip can further include upper engagement surfaces disposed upwardly from the bridging section of the grate clip. In these instances, when the grate is secured to the grate clip, the grate may be secured or compressed between the fastener and the upper engagement surfaces of the grate clip.
In some forms, each trench sidewall of the pair of trench sidewalls can include an arcuate guide disposed proximate an upper end of the corresponding trench sidewall. The cross-bar can include a pair of tabs extending from opposite ends of the cross-bar. Each tab of the pair of tabs can be configured to engage one of the arcuate guides of the pair of trench sidewalls. Further still, in some specific forms, each tab of the pair of tabs can include an extension extending parallel to an edge of the corresponding end of the cross-bar. The arcuate guides of the pair of trench sidewalls may extend through an upper surface of the corresponding trench sidewall into the sidewall. In this way, the arcuate guides may allow for the pair of tabs of the cross-bar to be inserted into corresponding arcuate guides and swiveled into engagement with the corresponding arcuate guides.
In accordance with another aspect, a trench drain assembly is provided that comprises a pair of trench sidewalls and a cross-bar. Each of the pair of trench sidewalls includes an arcuate guide disposed proximate an upper edge of the corresponding trench sidewall. The cross-bar extends between the pair of trench sidewalls and includes a pair of tabs extending from opposite ends of the cross-bar. Each of the pair of tabs is configured to engage one of the arcuate guides of the pair of trench sidewalls.
In some instances, the arcuate guides of the pair of trench sidewalls can extend through an upper surface of the corresponding trench sidewall. In these instances, the arcuate guides can allow for the pair of tabs of the cross-bar to be inserted into corresponding arcuate guides and swiveled into engagement with the corresponding arcuate guides. Additionally, the cross-bar can include a pair of cross-bar sidewalls connected by a bridging surface. The pair of tabs can extend from the bridging surface.
In some forms and as noted in the first aspect, the assembly may further include a grate and a grate clip assembly. The grate may span between the pair of trench sidewalls and extending along an axial direction of the trench drain assembly. The grate clip assembly can include a grate clip and a fastener in which the grate clip has a pair of deformable catch arms connected by a bridging section and in which the fastener is coupled to the grate clip and secures the grate to the grate clip. The pair of deformable catch arms may be configured to reversibly engage the cross-bar. Again, it is contemplated that, in some forms, the grate may be secured or compressed between the fastener and either an upper surface of the bridging section of the grate clip or upper engagement surfaces disposed upwardly from the bridging section of the grate clip.
These and still other advantages of the invention will be apparent from the detailed description and drawings. What follows is merely a description of some preferred embodiments of the present invention. To assess the full scope of the invention, the claims should be looked to as these preferred embodiments are not intended to be the only embodiments within the scope of the claims.
The trench drain assembly 10 includes a polymeric trench drain including a pair of spaced apart trench sidewalls 12 connected to a U-shaped bottom wall 14 and define an open-faced channel 15. The trench sidewalls 12 can either be straight or angled. Likewise, the bottom wall 14 can either be flat, round, or angled so that water or other liquids can be directed from one end to another. In any event, the particular geometry of the trench drain and channel can deviate from that illustrated.
In some instances, the trench drain can have axially-extending metal rails 16 disposed along upper edges of each trench sidewall 12 for reinforcing the sidewalls 12 and for receiving a grate 17. However, it is also contemplated that an entire polymeric trench drain (such as is subsequently depicted in the alternative design of
The trench drain assembly 10 further includes a grate 17 (shown in
Referring now to
The bridging section 26 of the cross-bar 18 also includes an attachment aperture 30 and a pair of tabs 32. The attachment aperture 30 is disposed centrally on the bridging section 26 and can be configured to engage the grate clip assembly 20 or the grate 17 directly. The pair of tabs 32 extend from opposite ends of the bridging section 26, generally laterally away from the bridging section 26, in a direction that is coplanar to a plane defined by the bridging section 26. Each of the pair of tabs 32 additionally includes an engagement notch 36 disposed adjacent the bridging section 26, which forms a corresponding engagement portion 39. Each of the engagement notches 36 face the same axial side of the cross-bar 18 (axial being defined with respect to the trench drain in which the cross-bar 18 is ultimately assembly).
Referring now to
Additionally, the axially-extending metal rail 16 further includes a guide cover 43 (shown in
Now that the structure of the cross-bar 18 and the trench drain have been discussed above, one exemplary method of installing the cross-bar 18 between the trench sidewalls 12 of the trench drain will be described below. It will be understood that the method described below is provided as an example and is in no way meant to be limiting. It will be appreciated that other trench drain and cross-bar designs may have different features which may engage one another in different ways than those specifically described below.
To install the cross-bar 18 between the trench sidewalls 12 of the trench drain, a user can first insert the pair of tabs 32 of the cross-bar 18 into the corresponding arcuate guides 38, with the pair of tabs 32 first entering the arcuate guides 38 at the horizontal surfaces 40 of the lips 22 of the trench sidewalls 12. In the particular design illustrated, the pair of tabs 32 should be inserted into the arcuate guides 38 with the engagement notches 36 of the pair of tabs 32 facing the horizontal surfaces 40 of the trench sidewalls 12 upon insertion.
The cross-bar 18 can then be swiveled downward, along an arcuate path, such that the pair of tabs 32 slide within the arcuate guides 38. Eventually, as the cross-bar 18 is swiveled downward, an inner surface 37 (shown in
Once the inner surfaces 37 of engagement notches 36 contact the guide ends 42, the cross-bar 18 is fully installed between the trench sidewalls 12, with the engagement notches 36 being wrapped around the guide ends 42 and the engagement portions 39 being engaged with a portion of the corresponding trench sidewall 12.
The cross-bar 18 can then similarly be removed from the trench drain by swiveling the cross-bar 18 upwards, along an arcuate path reverse to that of the insertion, such that the pair of tabs 32 slide within the arcuate guides 38 and eventually exit the arcuate guides 38 at the horizontal surfaces 40 of the axially-extending metal rails 16.
As noted above, the trench sidewall 46 does not include an axially-extending metal rail, and is instead made completely of a polymeric material. Due to the lower strength of the polymeric material, a thickness of the portion of the trench sidewall 46 engaging the cross-bar 44 must be larger than the portion of the trench sidewall 12 that engages the cross-bar 18. As such, the pair of tabs 48 of the cross-bar 44 are shaped differently, being laterally longer and curved, to accommodate this larger thickness and to increase the contact area between the cross-bar 44 and the sidewall 46 to distribute the stress over the polymeric material thickness.
The pair of tabs 48 of the cross-bar 44 comprise a first engagement portion 52 and a second engagement portion 54. The first engagement portion 52 extends away from a bridging surface 56 of the cross-bar 44, generally away from the bridging surface 56, in a direction that is coplanar to a plane defined by the bridging surface 56. The second engagement portion 54 then extends substantially perpendicularly to the first engagement portion 52, curving downward.
To accommodate the second engagement portion 54, the arcuate guide 50 includes a clearance slot 58 recessed into and extending along a radially inward facing surface 60 of the arcuate guide 50. The arcuate guide 50 also includes a molding slot 62, which is provided solely for molding purposes so that the tooling members can separate from one another after the trench drain has been injected.
Despite these structural differences from the initial described embodiment, installing the cross-bar 44 between the pair of trench sidewalls 46 is substantially identical to installing the cross-bar 18 between the trench sidewalls 12, as described above. The cross-bar 44 is simply swiveled downwardly into place, with the arcuate guides 50 guiding its trajectory.
Referring now to
The bridging section 78 includes a fastener-receiving element 86 and a pair of support arms 88. The fastener-receiving element 86 is disposed centrally on the bridging section 78 and defines a generally cylindrical shape extending perpendicularly to the plane defined by the bridging section 78 in a direction opposite the pair of deformable catch arms 76. The fastener-receiving element 86 further includes a fastener-receiving aperture extending axially through the center of the fastener-receiving element 86. In some instances, the fastener-receiving aperture can be a threaded aperture, which can be configured to engage threads of the fastener 74. In some other instances, the fastener-receiving aperture can engage the fastener 74 in other ways. The support arms 88 extend from opposing edges of the bridging section 78 in a direction substantially perpendicular to the plane defined by the bridging section 78.
The fastener 74 in the illustrated embodiment is a hex-head bolt, which further includes a washer 90. It is contemplated that in other embodiments, the fastener 74 could be a variety of other fasteners, such as, for example, a square-head bolt, a hex-socket bolt, or any other suitable fastener. Additionally, the fastener 74 in the illustrated embodiment is a threaded fastener. In other embodiments, it is contemplated that the fastener 74 could be a non-threaded fastener. Further, the washer 90 illustrated is a flat washer. In other embodiments, the washer 90 could alternatively be a lock-washer, a toothed washer, or any other suitable washer type.
Now that the structure of the grate clip assembly 20 has been described above, a method for installing the grate 17 and the grate clip assembly 20 onto the trench drain to form the trench drain assembly 10 and the cross-bar 18, as described above, will be described below. It will again be understood that the method described below is provided as an example and is in no way meant to be limiting. Additionally, although the following description will refer to attaching the grate clip assembly 20 to the cross-bar 18 (with the grate 17 already being attached to the grate clip assembly 20 or multiple grate clip assemblies), it will be understood that a similar process can be used to attach the grate clip assembly 20 to the cross-bar 44.
Referring now to
As the cross-bar 18 slides between the deformable catch arms 76, lower edges of the sidewall extensions 28 eventually pass the catch lips 82 of the grate clip 72. At this point, the deformable catch arms 76, being elastically deformable, return to or snap back to their non-deformed original shape. Said differently, once the lower edges of the sidewall extensions 28 pass the catch lips 82 of the grate clip 72, the deformable catch arms 76 snap around the cross-bar 18, essentially locking the grate clip 72 in engagement with the cross-bar 18.
In most instances, the grate 17 will be pre-attached to the grate clip assembly 20 (or assemblies, meaning that the grate 17 will be in place. However, it is also contemplated that the grate 17 might be attached after the grate clip 72 has been installed in place. In either event, the manner in which the grate 17 is attached to the grate clip 72 is now described. The grate 17 is placed over the grate clip assembly 20, such that the grate aperture 19 is aligned with the fastener-receiving element 86. With the grate aperture 19 aligned with the fastener-receiving element 86, the fastener 74 can be inserted through the grate aperture 19, and the fastener 74 can be threaded into the fastener-receiving element 86. As the fastener 74 is threaded into the fastener-receiving element 86, the washer 90 comes into contact with the grate aperture recess 21. The washer 90 then compresses or contacts the grate 17, which is thereby secured between the washer 90 and the grate clip 72, with the grate aperture recess 21 being compressed by the washer 90 and the grate aperture protrusion 23 being compressed by the upper surface of the bridging section 78.
Additionally, when the grate 17 is engaged with the grate clip 72, the support arms 88 are disposed between adjacent grates (not shown) to prevent the grate 17 from turning relative to the grate clip 72.
Referring now to
Additionally, the bridging section 98 similarly includes a fastener-receiving element 99 and support arms 100. The fastener-receiving element 99 again includes a fastener-receiving aperture 101, which can be threaded. The support arms 100 of the bridging section 98, however, extend farther than support arms 88 of the grate clip assembly 20. Further, each of the support arms 100 of the bridging section 98 includes a vertical portion 102 and a horizontal support portion 104. The vertical portions 102 extend vertically away from the bridging section 98. The horizontal support portions 104 extend horizontally away from a top end of the vertical portions 102. The horizontal support portions 104 further extend away from each other and each include a grate engagement aperture 106. As can be seen in
The grate 94 is much thinner than the grate 17, although it similarly includes a grate aperture 108. The grate aperture 108, however, does not include a grate aperture recess, but rather includes a slightly rounded edge around the grate aperture 108, configured to receive the fastener 95. The grate 94 additionally includes clip engagement tabs 109, which are bent downwards and configured to engage the grate engagement apertures 106 of the grate clip 93, as will be described below.
Now that the key differences between the grate clip assembly 92 and the grate clip assembly 20 have been described above, a method of installing the grate 94 and the grate clip assembly 92 onto the trench drain will be described below. Again, it will be understood that the following description is given as an example and is in no way meant to be limiting.
The grate 94 is be placed over the grate clip assembly 92, such that the grate aperture 108 is aligned with the fastener-receiving element 99. With the grate aperture 108 aligned with the fastener-receiving element 99, the fastener 95 can be inserted through the grate aperture 108 and threaded into the fastener-receiving element 99. As the fastener 95 is threaded into the fastener-receiving element 99, the head of the fastener contacts the grate 94 and pulls the grate 94 into contact with the horizontal support portions 104 of the support arms 100. As the grate 94 contacts the horizontal support portions 104, the grate 94 is compressed between the fastener 95 and the horizontal support portions 104 of the grate clip 93. Additionally, as the grate 94 is pulled into contact with the horizontal support portions 104, the clip engagement tabs 109 become disposed within the grate engagement apertures 106, which prevents the grate 94 from rotating relative to the grate clip 93.
With the grate 94 assembled to the grate clip assembly 92, the deformable catch arms 96 may be depressed onto either of the cross-bars 18, 44, as described above, with reference to the grate clip 72 as is generically depicted in
It will be understood that either of the grate clip assemblies 20, 92 can be installed onto either of the cross-bars 18, 44 described above, or can alternatively be installed onto varying other types of cross-bars having compatible geometries. Furthermore, there may be situations where either of the cross-bars 18, 44 may be installed without either the grate clip assemblies 20, 92, or, in some cases, may be installed with other grate clip assemblies having compatible geometries.
It should be appreciated that various other modifications and variations to the preferred embodiments can be made within the spirit and scope of the invention. Therefore, the invention should not be limited to the described embodiments. To ascertain the full scope of the invention, the following claims should be referenced.
This application claims the benefit of U.S. Provisional Patent Application No. 62/450,901 filed on Jan. 26, 2017, which is incorporated by reference herein in its entirety for all purposes.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3225545 | Flegel | Dec 1965 | A |
| 4472078 | Karbstein | Sep 1984 | A |
| 4630962 | Thomann | Dec 1986 | A |
| 4699544 | Karbstein | Oct 1987 | A |
| 5066165 | Wofford et al. | Nov 1991 | A |
| 5281051 | Stegall | Jan 1994 | A |
| 5437516 | Sauerwein | Aug 1995 | A |
| 5564860 | Amann | Oct 1996 | A |
| 5653553 | Gunter | Aug 1997 | A |
| 5718537 | Becker | Feb 1998 | A |
| 6595720 | Humphries et al. | Jul 2003 | B2 |
| 6945733 | Rathmann | Sep 2005 | B2 |
| 7252457 | Humphries et al. | Aug 2007 | B2 |
| 7413372 | Meyers | Aug 2008 | B2 |
| 8474068 | Kik, Sr. et al. | Jul 2013 | B2 |
| 20030147693 | Knak et al. | Aug 2003 | A1 |
| 20050055887 | Benesteau et al. | Mar 2005 | A1 |
| 20110162137 | Kik, Sr. et al. | Jul 2011 | A1 |
| 20140110007 | Humphries et al. | Apr 2014 | A1 |
| 20160319530 | Files, Jr. | Nov 2016 | A1 |
| Number | Date | Country | |
|---|---|---|---|
| 20180209132 A1 | Jul 2018 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62450901 | Jan 2017 | US |
