This invention relates to panel mounting, and more particularly to fasteners and methods for mounting acoustic panels on walls.
Mounting acoustic panels to a wall can require much precision and can often be time-consuming. Some systems for mounting acoustic panels require the use of marking methods or additional tools that make the aligning and mounting of panels difficult. Improvements to the methods and systems for mounting acoustic panels are sought.
One aspect of the invention features an acoustic panel wall mounting system. The mounting system includes a rigid fastening plate carrying a field of first touch fastening features on one broad surface of the plate. The fastening plate defines an aperture for receiving a mechanical fastener to secure the fastening plate to a wall with the field of first touch fastening features exposed. The mounting system also includes a panel anchor that has a helix extending from a rigid surface flange. The flange caries a field of second touch fastening features on a surface opposite the helix. The anchor defines a tool receptacle configured to receive a tool for twisting the helix into a panel until the flange is at an outer surface of the panel with the field of second touch fastening features exposed. The field of first touch fastening features is engageable with the field of second touch fastening features to form a connection when brought into engagement as the panel is placed against the wall to contact the fastening plate with the panel anchor.
In some examples, the tool receptacle has a recess configured to receive or accommodate, when the connection is formed, a head of the mechanical fastener. Such recess allows the connection to be formed with the flange held parallel to the fastening plate.
In some embodiments, the helix includes a hollow cylinder having an external thread. In some cases, the external thread has a varying pitch or a varying lead angle. In some cases, the varying pitch includes an introduction stage thread pitch, a transition stage thread pitch, and a fine-turning stage thread pitch.
In some arrangements, the field of second touch fastening features includes a hook fastening patch permanently affixed to the flange.
In some embodiments, the field of second touch fastening features includes discrete hooks molded directly on the surface of the flange.
In many embodiments, the rigid plate includes a die-cut plate from extruded PVC.
In some examples, one of the field of first touch fastening features and the field of second touch fastening features includes an engageable fibrous surface, and the other of the field of first touch fastening features and the field of second touch fastening features includes a field of discrete hooks configured to engage the engageable fibrous surface. In some cases, the engageable fibrous surface includes a non-woven material. In some cases, the hooks have discrete resin stems extending from a common layer of resin.
In some arrangements, the field of first touch fastening features and the field of second touch fastening features include complementary arrays of hooks that engage when pressed together.
Another aspect of the invention features a method of mounting an object to a mounting surface. The method includes providing a bounded field of discrete touch fastening hooks carried on a surface of the object, and adhering a first adhesive surface of a flexible patch to the field of discrete touch fastening hooks. A release liner is removed from the flexible patch to expose a second adhesive surface opposite the field of fastening hooks. The object is pressed against the mounting surface in a desired position to adhere the second adhesive surface to the mounting surface. The object is moved away from the mounting surface, leaving the flexible patch adhered to the mounting surface with the first adhesive surface exposed. A fastener patch is positioned on the mounting surface over the adhered flexible patch, with the fastener patch carrying a field of fastening loops on a surface opposite the mounting surface. The method further includes attaching the fastener patch to the mounting surface, and then positioning the object in its desired position on the mounting surface and engaging the touch fastening hooks with the field of fastening loops of the attached fastener patch, to mount the object to the mounting surface.
In some embodiments, providing the bounded field of touch fastening hooks includes threading an anchor into a surface of the object. In such embodiments, the anchor includes a rigid surface flange carrying the field of touch fastening hooks. In some cases, adhering the first adhesive surface of the flexible patch to the field of discrete touch fastening hooks includes aligning a central hole of the flexible patch with a tool receptacle of the anchor.
In some examples, the method also includes, prior to adhering the first adhesive surface of the flexible patch to the field of discrete touch fastening hooks, removing a release liner from the flexible patch to expose the first adhesive surface.
In some arrangements, the flexible patch includes a double-sided adhesive sticker.
In some examples, the fastener patch includes a rigid plate carrying the field of fastening loops on one broad surface of the rigid plate.
In most examples, attaching the fastener patch to the mounting surface includes threading a mechanical fastener extending through an aperture of the fastening patch into the mounting surface.
In some cases, positioning the fastener patch on the mounting surface includes aligning a central hole of the fastener patch to a central hole of the flexible patch.
The present invention provides flexibility when aligning and mounting an acoustic panel to a wall in a desired position. The mounting system described herein may form a strong touch fastening connection even when just a portion of the hooks is engaged with a portion of the loops. Such feature allows a user to mount the panel in different positions to align the panel in the desired position. Additionally, the present disclosure describes a method of marking the mounting wall that can be used in different surfaces such as in wood, drywall, masonry, or concrete walls.
The details of one or more embodiments of the invention are set forth in the accompanying drawings and the description below. Other features, objects, and advantages of the invention will be apparent from the description and drawings, and from the claims.
Like reference symbols in the various drawings indicate like elements.
Referring to
Fastening plate 14 carries a field of first touch fastening features 18 on one broad surface of the plate. In this example, the touch fastening features 18 of plate 14 are fibrous loops such as non-woven loops, and the touch fastening features 20 of anchor 16 are discrete hooks that engage fastening loops 18. The hooks could be of any shape designed to releasably engage fibers of the mating plate, such as J-shape, palm-tree or mushroom-type hooks. In some examples (not shown), both of the field of first touch fastening features 18 and the field of second touch fastening features 20 are complementary arrays of fastening hooks that form a hook-to-hook connection. A hook-to-hook connection can be a touch fastening connection or it can be a permanent or semi-permanent connection (e.g., configured to engage when pressed together). Plate 14 is secured to a wall 13 by a mechanical fastener 30 extending through an aperture (not shown) of the fastening plate. Panel anchor 16 is threaded into acoustic panel 12 with hooks 20 facing the loops 18 of plate 14. Acoustic panel 12 is mounted to wall 13 by pressing the panel 12 against wall 13 to engage the corresponding fastening features 20 of anchor 16 with the fastening features 18 of rigid plate 14.
Mounting system 10 forms a connection between anchor 16 and plate 14 that is strong enough to retain acoustic panels permanently or temporarily on a wall. Acoustic panels 12 come in different sizes and weight. For example, panel 12 can have a thickness of 25, 40, or 50 millimeters with a weight of 3.25, 4, or 5 kilograms per square meter respectively. Some acoustic panels configured to be installed in a ceiling have a maximum size of about 1.8 square meters. Panel 12 may require around four fasteners 10 per square meter.
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Flange 24 has aligning tabs 51 that are arranged to center patch 32 in position before welding the patch to the flange. Hook patch 32 can be secured to flange 24 using other methods such as using an adhesive or by using mechanical fasteners (not shown). Alternatively, hooks 38 can be directly molded on the surface of the flange 24 by pressing, for example, flange 24 against a mold roll when the PVC flange is still molten. Hooks 38 can alternatively be integrally formed with flange 24 by using injection molding to form the flange and the hooks together.
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While a number of examples have been described for illustration purposes, the foregoing description is not intended to limit the scope of the invention, which is defined by the scope of the appended claims. There are and will be other examples and modifications within the scope of the following claims.
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Number | Date | Country | |
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Parent | 16053325 | Aug 2018 | US |
Child | 16714970 | US |