HK1221619B - Article support using peel release adhesives - Google Patents

Description

TECHNICAL FIELD

The present disclosure relates to adhesive mounting articles using peel release adhesives.

BACKGROUND

Peelable adhesive products are available that can adhere to a surface, for example, a wall surface, and thereafter removed by peeling. In one commercially available hook, a semi-rigid plastic backing and a rigid hook are integrated as a one-piece article support. The rigid hook is permanently attached to a central surface of the semi-rigid plastic backing and the opposite surface of the semi-rigid plastic backing can be adhered to a wall surface, and thereafter removed by peeling. However, the shear performance of the available peelable adhesive products needs to be improved. WO2012/087695A1 discloses an adhesive mounting article according to the preamble of claim 1.

SUMMARY

Briefly, the present invention describes mounting articles according to claim 1 for mounting an object to a mounting surface or a surface of a substrate, for example, a vertical wall or a cabinet surface. The flexible adhesive tape structure can adhere to the mounting surface via the peelable adhesive disposed on a rear surface of the flexible backing layer, and thereafter be manually removed from the mounting surface by peeling. The rigid plate can cover the flexible adhesive tape structure from front and/or side views when the mounting articles are in use. This can prevent the flexible adhesive tape structure from being manually peeled from the mounting surface when the rigid plate is connected, via the separable connector, to the flexible adhesive tape structure.

The invention described herein provides a mounting article having a two-piece structure, i.e., a flexible adhesive tape structure and a rigid faceplate structure that are detachably connected. This allows the flexible adhesive tape structure to be developed independently from the rigid faceplate structure. In some embodiments, properties of the flexible adhesive tape structure including, for example, adhesive properties, release properties, etc., can be optimized independently from the rigid plate. In some embodiments, the flexible adhesive tape structure or adhesive on the flexible backing layer can be replaced after use, and the rigid plate can be useable. This allows an inter-changeability of flexible adhesive tape structures for different environments if desired.

The invention provides mounting articles that can produce superior weight claims, have smaller footprints, and more consistent performance on various household surfaces such as, for example, painted drywall.

Preferred features of the invention are set out in the dependent claims.

The Drawings and the Detailed Description that follow more particularly exemplify a preferred embodiment of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention may be more completely understood in consideration of the following detailed description of an embodiment of the invention in connection with the accompanying figures, in which:

• Figure 1 is a perspective view of an adhesive mounting article including a flexible adhesive tape structure and a rigid faceplate structure to be connected, according to an example for understanding the invention but not according to the invention.
• Figure 2 is a perspective view of the adhesive mounting article of Fig. 1 adhering to a mounting surface.
• Figure 3 is a side view in cross section of the adhesive mounting article of Fig. 1 with the flexible adhesive tape structure and the rigid faceplate structure being connected.
• Figure 4 is a side view in cross section of the adhesive mounting article of Fig. 1 with the flexible adhesive tape structure and the rigid faceplate structure being disconnected.
• Figure 5 is a perspective view of a rigid faceplate structure, according to an embodiment of the invention.

In the drawings, like reference numerals indicate like elements. While the above-identified drawings, which may not be drawn to scale, set forth one embodiment of the present invention, other embodiments are also contemplated, as noted in the Detailed Description. It should be understood that numerous modifications and embodiments can be devised by those skilled in the art, which fall within the scope of the invention as claimed.

DETAILED DESCRIPTION

With reference to the Figures, like numerals are used to designate like components throughout the set of Figures. Figures 1 to 4 illustrate an example of an adhesive mounting article 10 not according to the invention. The adhesive mounting article 10 includes a flexible adhesive tape structure 12, a rigid faceplate structure 14 defining a recess 20 to receive the flexible adhesive tape structure 12, a mounting member 18 attached to the rigid faceplate structure 14, and a separable connector 16 configured to detachably connect the flexible adhesive tape structure 12 and the rigid faceplate structure 14.

In the example shown in Figs. 1-4, the flexible adhesive tape structure 12 has a rectangular shape and the rigid faceplate structure 14 has an oval shape. It is to be understood that the flexible adhesive tape structure and the rigid faceplate structure can be any suitable shapes as long as the flexible adhesive tape structure can be received by the recess of the rigid faceplate structure. In some examples, the rigid faceplate structure can have a shape and/or size that follow the shape/size of flexible adhesive tape structure. In one example, the flexible adhesive tape structure can include a rectangular adhesive strip and the rigid faceplate structure can include a rectangular rigid plate having a recess to receive the rectangular adhesive strip.

As shown in Fig. 2, the adhesive mounting article 10 can adhere to a mounting surface 50, for example, a vertical wall surface, for mounting an object (not shown), for example, a picture frame. The flexible adhesive tape structure 12 (not visible in Fig. 2) is capable of adhering to the mounting surface 50 and thereafter being manually removable from the mounting surface 50 by peeling without causing damage to the mounting surface 50. When the rigid faceplate structure 14 connects to the flexible adhesive tape structure 12, the flexible adhesive tape structure 12 is received by the recess 20 of the rigid faceplate structure 14, and the rigid faceplate structure 14 covers the flexible adhesive tape structure 12 from both front and side views to hide the flexible adhesive tape structure 12. This can prevent the flexible adhesive tape structure 12 from being manually removed from the mounting surface 50 by peeling when the mounting article 10 is in use. When the rigid faceplate structure 14 is disconnected from the flexible adhesive tape structure 12, the flexible adhesive tape structure 12 is exposed and can be removed from the mounting surface 50 by peeling.

An object (not shown), for example, a picture frame, can be mounted on the mounting member 18. In the example shown in Fig. 2, the mounting member 18 is a hook that is permanently attached to the rigid faceplate structure 14. It is to be understood that the mounting member can be any functional device other than a hook. In some examples, the rigid faceplate structure 14 and the mounting member 18 can be integrated as one-piece. In some examples the mounting member 18 can be removable from the rigid faceplate structure 14.

As illustrated best in Fig. 3, the rigid faceplate structure 14 and the flexible adhesive tape structure 12 are connected together by the separable connector 16. The flexible adhesive tape structure 12 is received by the recess 20 of the rigid faceplate structure 14. The flexible adhesive tape structure 12 may vary in overall thickness so long as it possesses sufficient integrity to be processable and provides the desired performance in respect to adhesion properties for adhering to and peelable from a mounting surface. The depth of the recess 20 can be determined to accommodate the flexible adhesive tape structure 12 by considering both the thickness of the flexible adhesive tape structure 12 and structures and materials of the rigid faceplate structure 14 that define the recess 20.

As illustrated best in Fig. 4, the flexible adhesive tape structure 12 includes a flexible backing layer 122 having a first major surface 121 and a second major surface 123 opposite to the first major surface 121, and a peelable adhesive layer 124 disposed on the first major surface 121 of the flexible backing layer 122. The thicknesses of the layers of the Figures are not to scale with respect to one another. It is to be understood that a liner (not shown) can be provided to cover and protect the external surface of the peelable adhesive layer 124.

The flexible backing layer 122 has sufficient flexibility so that a user can easily remove the flexible adhesive tape structure 12 from a mounting surface by peeling when the flexible adhesive tape structure 12 is uncovered by the rigid faceplate structure 14. In some examples, the flexible backing layer 122 can also provide conformability and resiliency properties which are helpful when the flexible adhesive tape structure 12 is to be adhered to a mounting surface having surface irregularities. In some examples, the flexible backing layer 122 can include a flexible polymeric foam layer. In some examples, the flexible backing layer 122 can include a flexible polymeric film. In some examples, the flexible backing layer 122 includes multiple layers that include one or more polymeric foam layers, and/or one or more polymeric films. In some examples, the flexible backing layer 122 utilized with the peelable adhesive layer 124 can be a solid adhesive backing layer.

Representative examples of materials suitable for the flexible backing layer 122 can include, for example, polyolefins, such as polyethylene, including high density polyethylene, low density polyethylene, linear low density polyethylene, and linear ultra low density polyethylene, polypropylene, and polybutylenes; vinyl copolymers, such as polyvinyl chlorides, both plasticized and unplasticized, and polyvinyl acetates; olefinic copolymers, such as ethylene/methacrylate copolymers, ethylene/vinyl acetate copolymers, acrylonitrile-butadienestyrene copolymers, and ethylene/propylene copolymers; acrylic polymers and copolymers; polyurethanes; and combinations of the foregoing. Mixtures or blends of any plastic or plastic and elastomeric materials such as polypropylene/polyethylene, polyurethane/polyolefin, polyurethane/polycarbonate, polyurethane/polyester, can also be used.

In some examples, the flexible backing layer 122 of the flexible adhesive tape structure 12 can be a composite foam that includes a flexible polymeric foam layer, a first film laminated to a first major surface of the foam layer, and a second film laminated to a second, opposite major surface of the foam layer. Adhesive(s) can be attached to the films to form a structure of adhesive-film-foam-film-adhesive. The flexible polymeric foam layer can be chosen to optimize conformability and resiliency properties which are helpful when the flexible adhesive tape structure 12 is to be adhered to surfaces having surface irregularities. Such is the case with a typical wall surface. A flexible polymeric foam layer is commercially available under the trade designation "Command" from Minnesota Mining and Manufacturing Company ("3M") of St. Paul, Minn. In some examples, the flexible polymeric foam layer of the flexible backing layer 122 can include polyolefin foams which are available under the trade designations "Volextra" and "Volara" from Voltek, Division of Sekisui America Corporation, Lawrence, Mass.

The flexible adhesive tape structure 12 can be produced by any conventional method for preparing adhesive tapes. In one example, the peelable adhesive layer 124 can be directly coated onto the flexible backing layer 122. In another example, the peelable adhesive layer 124 can be formed as a separate layer and then later laminated to the flexible backing layer 122. In some examples, two or more sub-layers can be coextruded so as to provide the flexible backing layer 122.

The peelable adhesive layer 124 of the flexible adhesive tape structure 12 can include any adhesive which can be disposed on the first major surface 121 of the flexible backing layer 122. In some examples, the peelable adhesive layer can include at least one of rubber, silicone, or acrylic based adhesives. In some examples, the peelable adhesive layer can include a non-stretch release adhesive such as, for example, a pressure-sensitive adhesive (PSA) or an epoxy adhesive. In some examples, the peelable adhesive layer 124 can include tackified rubber adhesives, such as natural rubber; olefins; silicones, such as silicone polyureas; synthetic rubber adhesives such as polyisoprene, polybutadiene, and styrene-isoprene-styrene, styrene-ethylene-butylene- styrene and styrene-butadiene-styrene block copolymers, and other synthetic elastomers; and tackified or untackified acrylic adhesives such as copolymers of isooctylacrylate and acrylic acid, which can be polymerized by radiation, solution, suspension, or emulsion techniques. The adhesive of the peelable adhesive layer 124 can include any peelable adhesive, with the particular adhesion properties being dependent on the use of the flexible adhesive tape structure 12. In some examples, adhesion properties of the adhesive can range from 0 N/dm to 25 N/dm. In some embodiments, adhesion properties of the adhesive can range from 0.5 N/dm to 10 N/dm. In some examples, adhesion properties of the adhesive can range from 1 N/dm to 5 N/dm. In some examples, a more permanent adhesion can be provided by the peelable adhesive layer such that a mounting surface may be damaged after removing the peelable adhesive layer therefrom.

Removing the flexible adhesive tape structure 12 from the surface of a substrate or a mounting surface can be carried out by simply peeling the tape at a peel angle of, for example, 90° or higher. It is to be understood that the peel angle can be lower than 90°. Removal at the appropriate peel angle can result in leaving no substantial or appreciable adhesive residue and in preventing the surface of the substrate from being damaged.

The rigid faceplate structure 14 includes a rigid faceplate 142 having a first major surface 141 and a second major surface 143 opposite to the first major surface 141. The mounting member 18 is attached to the first major surface 141. An apron 144 is disposed around the periphery 145 of the rigid faceplate 142. The apron 144 extends from the rigid faceplate 145 and defines the recess 20 at the second major surface 143. In some examples, when the rigid faceplate structure 12 is connected to the flexible adhesive tape structure 12 that is adhered to a mounting surface, at least a portion of the apron 144 can be pressed against the mounting surface.

The rigid faceplate 142 of the rigid faceplate structure 14 can be made of a rigid material such as, for example, thermoplastic materials including polycarbonate (PC) or acrylonitrile butadiene styrene (ABS). The rigid faceplate 142 need not be optimized for adhesion to the mounting surface, and depending on the contemplated use other desirable properties may be selected for such as cost, surface appearance, suitability for accepting decorative plating, bending strength, ability to be readily injection molded, etc. In some embodiments, depending on the exact application, rigid polyvinyl chloride, high impact polystyrene, or nylon may be used. It is to be understood that the rigid faceplate 142 can be made of any suitable rigid material having appropriate rigidity properties that can provide reinforcement of the peelable adhesive tape structure 12 that is connected to the rigid faceplate 142.

In the example not according to the invention shown in Figs. 1-4, the apron 144 is made of a rigid material same as or different from that of the rigid faceplate 142. In some examples, the apron 144 is an extended portion of the rigid faceplate 142. That is, the periphery 145 of the rigid faceplate 142 extends in a direction perpendicular to the second major surface 143 to form the apron 144. In embodiments according to the invention the apron 144 includes a compressible material such as, for example, a polymeric foam material. When the rigid faceplate structure 12 is connected to the flexible adhesive tape structure 12 that is adhered to a mounting surface, the compressible material can be pressed against the mounting surface and compressed.

In some examples, when the adhesive mounting article 10 adheres to a mounting surface, the apron 144 can be in direct contact with the mounting surface and surround the flexible adhesive tape structure 12 in 360° to completely block the side view of the flexible adhesive tape structure 12. In some examples, only a portion of the apron 144 is in direct contact with the mounting surface and the apron 144 can partially block the side view of the flexible adhesive tape structure 12.

Illustrated in Fig. 5 is a rigid faceplate structure 14', according to an embodiment of the invention. Similar to the rigid faceplate structure 14, the rigid faceplate structure 14' includes a rigid faceplate 142' having first and second major surfaces. A mounting member (hook) 18' is attached to the first major surface. An apron 144' is disposed around the periphery 145' of the rigid faceplate 142'. The apron 144' extends from the rigid faceplate 142' and defines a recess to receive a flexible adhesive tape structure such as the flexible adhesive tape structure 12.

The apron 144' includes a first portion 41' and a second portion 42' that can include different materials. The first portion 41' is the majority portion of the apron 144' and is provided to hide the received flexible adhesive tape structure. The second portion 42' is located at a bottom portion of the rigid faceplate structure 14' and faces a direction generally parallel to a longitudinal axis BB' of the rigid faceplate structure 14'. The second portion 42' is a minority portion of the apron 144'. In some embodiments, the length of the second portion 42' can be, for example, 1/50 to 1/2, 1/20 to 1/3, or 1/10 to 1/4 of the circumference of the apron 144' around the periphery 145'. When the rigid faceplate structure 14' is connected to the flexible adhesive tape structure 12 that is adhered to a mounting surface, the second portion 42' of the apron 144' can be pressed against the mounting surface 50 and in direct contact with the mounting surface. The second portion 42' can act as a supporting member to support the rigid faceplate structure 14' when the mounting member 18' is loaded by mounting an object.

The first portion 41' is made of a compressible material such as, for example, a polymeric foam material. The second portion 42' can be made of a rigid material. In some embodiments, the second portion 42' can be an extended portion of the rigid faceplate 142'.

In some embodiments, the first portion 41' may not be provided to hide the connected flexible adhesive tape structure 12. Only the second portion 42' is provided as a supporting member to support the rigid faceplate structure 14' when the mounting member 18' is loaded with an object.

Referring back to Figs. 1, 3 and 4, the separable connector 16 includes a first separable connecting member 162 disposed on the second major surface 123 of the flexible backing layer 122, and a second separable connecting member 164 disposed on the second major surface 143 of the rigid faceplate 142 and received by the recess 20. The first and second separable connecting members 162 and 164 are engagable with each other to form a separable connection, thereby detachably connecting the flexible adhesive tape structure 12 and the rigid faceplate structure 14. As shown in Fig. 4, the flexible adhesive tape structure 12 and the rigid faceplate structure 14 are separable so that the first separable connecting member 162 remains with the flexible adhesive tape structure 12 and the second separable connecting member 164 remains with the rigid faceplate structure 14 after separation of the separable connector 16.

The separable connector 16 can include any known or developed reusable connector for connecting the flexible adhesive tape structure 12 and the rigid faceplate structure 14. The separable connector 16 permits the reusable separation and connection of the flexible adhesive tape structure 12 and the rigid faceplate structure 14 along a general plane. In some examples, the separable connector 16 can include, for example, a mechanical type fastener including an interlocking system, an intermeshing system having connection without macroscopic mechanical deformation or interference, a releasable contact responsive fastener, a splittable construction, and the like.

In some examples, the first separable connecting member 162 can include a layer of hook material which is bonded with the flexible backing layer 122 at the second major surface 123 thereof, and the second separable connecting member 164 can include a layer of loop material which is bonded with the rigid faceplate 142 at the second major surface 143 thereof. It is contemplated that any commercially available hook and loop connector system can be utilized.

Hook and loop connector systems are but one type of mechanical interlocking connector systems which are suggested by this example. By mechanical interlocking, it is meant those fasteners where at least one of the connector elements undergoes some macroscopic deformation (preferably plastic deformation) so that a mechanical interference results between plural components. Well known examples include hook and loop products commercially available under the trade designation "3M Scotchmate" industrial fastener, from Minnesota Mining and Manufacturing Company ("3M") of St. Paul, Minn.) and those hook and loop products that are commercially available under the trade designation "Velcro". Many other connector systems and fasteners are known which comprise elements extending from a generally planar layer of one material to meet with similar or dissimilar cooperating members extending from another generally planar layer. Many different modifications of the inter-engaging elements are designed based on the requisite force and manner of separation between the cooperating layers of such a separable connector system. In some examples, the separable connector 16 can provide, for example, a dual-lock connection, or a micro-rail connection.

In some xamples, the separable connector 16 can include a connector system other than a mechanical connector system. The separable connector 16 can include, for example, a magnetic connector system including a first magnetic connecting member disposed on the flexible adhesive tape structure 12 and a second magnetic connecting member disposed on the rigid faceplate structure 14.

The area of connection and the type of the separable connector 16 can be selected so that the force required to separate the flexible adhesive tape structure 12 from the rigid faceplate structure 14 can be readily applied by a user. Such a force may be applied in a direction substantially perpendicular to the general plane of the connector 16. In one example, a force can be applied by rotating the rigid faceplate 144 around a longitudinal axis AA' of the rigid faceplate structure 14 to separate or cleave off the first and second connecting members 162 and 164. When the apron 144 is made of a rigid material, the apron 144 can be chamfered at an outer periphery to facilitate such rotation. In another example, a force can be applied to pull the rigid faceplate 144 or the mounting member 18 away from the mounting surface to disengage the first and second connecting members 162 and 164.

The separable connector 16 can provide sufficient strength along the general plane of its separation so that, depending on the specific application, the separable connector 16 will not separate based on the use of the adhesive mounting article for mounting an object on the mounting surface. The separable connector 16 can provide an internal static shear strength in a direction parallel to the general plane for supporting the mounted object. In some examples, the shear strength of the separable connector 16 can equal or exceed the highest shear force that the peelable adhesive layer 124 can develop with the mounting surface to which it is applied. In some examples, the peelable adhesive layer 124 can provide a shear force of, for example, 4-20 pounds per square inch (28-138 Newton per square meter).

In some examples, the aggressiveness of the peelable adhesive layer 124 can be chosen so that the separable connector 16 including the first and second separable connecting members 162 and 164 separates prior to delamination of the peelable adhesive layer 124 or to separation of the bond between the peelable adhesive layer 124 and the mounting surface 50.

As shown in Figs. 3 and 4, the flexible backing layer 122 extends beyond an edge 124e of the peelable adhesive layer 124 to form a tab portion 126. When the flexible adhesive tape structure 12 is uncovered by the rigid faceplate structure 14, the tab portion 126 can facilitate the peeling of the peelable adhesive layer 124 from a mounting surface, e.g., the mounting surface 50. The tab portion 126 is provided as an extension of the flexible backing layer 122. That is, the flexible backing layer 122 extends farther than the peelable adhesive layer 124. The tab portion 126 is non-adhesive to the mounting surface. After the rigid faceplate structure 14 is disconnected from the flexible adhesive tape structure 12 as shown in Fig. 4, by application of a peeling force to the tab portion 126, the peelable adhesive layer 124 along with other components of the flexible adhesive tape structure 12 can be removed from the mounting surface. It is to be understood that the tab portion 126 can be located at the top, bottom, or side of the flexible backing layer 122 to facilitate the peeling of the peelable adhesive layer 124 from the mounting surface.

As illustrated in Fig. 3, when the flexible adhesive tape structure 12 is received in the recess 20 of the rigid face plate structure 14, a gap 22 is formed between a bottom edge 122e of the flexible backing layer 122 and a bottom portion 144e of the apron 144. When the adhesive mounting article 10 is in use, the bottom portion 144e of the apron 144 can be pressed against the mounting surface 50 and act as a supporting member for the adhesive mounting article 10. The bottom portion 144e can be, for example, the second portion 42' shown in Fig. 5. The gap 22 separates the flexible adhesive tape structure 12 from the bottom portion 144e of the apron 144. This can prevent undesired premature peeling of the peelable adhesive layer 124 adjacent the bottom portion 144e from the mounting surface 50 when the bottom portion 144e of the apron 144 is pressed against the mounting surface. In some examples, the gap 22 can have a dimension being 1/50 to 1/4, 1/30 to 1/6, or 1/20 to 1/10 of the dimension of the flexible backing layer 122 along the longitudinal axis AA'. Optionally, a gap 22' can be formed between the flexible backing layer 122 and the apron 144 at an upper portion of the recess 20. In some examples, it will be appreciated that side edges of the flexible backing layer 122 can be in direct contact with inner surfaces of the apron 144.

With regard to the foregoing description, 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 the parts without departing from the scope of the present invention. It is intended that the depicted embodiment to be considered exemplary only, with the invention being indicated by the the claims.

Claims (15)

1. An adhesive mounting article (10), comprising:

   a flexible adhesive tape structure (12) including a flexible backing layer (122) having a first major surface (121) and a second major surface (123) opposite to the first major surface (121), the flexible adhesive tape structure (12) including a peelable adhesive (124) disposed on the first major surface (121) and a first separable connecting member (162) disposed on the second major surface (123), the peelable adhesive (124) being capable of adhering to a mounting surface (50) and thereafter being manually removable from the mounting surface (50) by peeling; and

   a rigid faceplate structure (14') including a rigid faceplate (142') having a first major surface (141) and a second major surface (143) opposite to the first major surface (141), and a second separable connecting member (164) disposed on the second major surface (143) of the rigid faceplate (142'), the first and second separable connecting members (162, 164) being configured to engage with each other to form a separable connection to connect the flexible adhesive tape structure (12) and the rigid faceplate structure (14'),

   wherein the rigid faceplate structure (14') further includes an apron (1 44') disposed around a periphery (145') of the rigid faceplate (142') to form a recess (20), and the apron (144') is positioned such that when the rigid faceplate structure (14') is connected, via the separable connection, to the flexible adhesive tape structure (12) at least a portion of the apron (144') is pressed against the mounting surface (50) and in direct contact with the mounting surface (50), characterised in that the apron (144') includes a compressible material.
2. The adhesive mounting article (10) of claim 1, wherein the rigid faceplate structure (14') covers the flexible adhesive tape structure (12) to prevent the flexible adhesive tape structure (12) from being manually removed from the mounting surface (50) by peeling when the rigid faceplate structure (14') is connected, via the separable connection, to the flexible adhesive tape structure (12).
3. The adhesive mounting article (10) of claim 1, wherein the flexible backing layer (122) includes a flexible polymeric foam layer.
4. The adhesive mounting article (10) of claim 3, wherein the flexible backing layer (122) extends longitudinally beyond an edge (124e) of the peelable adhesive layer (124) to form a tab portion (126).
5. The adhesive mounting article (10) of claim 3, wherein the flexible polymeric foam layer is a composite foam that further includes a first film laminated to a first major surface of the foam layer, and a second film laminated to a second, opposite major surface of the foam layer.
6. The adhesive mounting article (10) of claim 1, wherein when the first and second separable connecting members (162, 164) are engaged with each other to form the separable connection, the flexible adhesive tape structure (12) is received by the recess (20).
7. The adhesive mounting article (10) of claim 1, wherein the apron (144') at least partially blocks the side view of the flexible adhesive tape structure (12).
8. The adhesive mounting article (10) of claim 1, wherein when the flexible adhesive tape structure (12) is received in the recess (20) of the rigid face plate structure (14'), a gap (22) is formed between a bottom edge (122e) of the flexible backing layer (122) and a bottom portion (144e) of the apron (144').
9. The adhesive mounting article (10) of claim 7, wherein the whole apron (1 44') is pressed against the mounting surface (50) and in direct contact with the mounting surface (50) and completely blocks the side view of the flexible adhesive tape structure (12).
10. The adhesive mounting article (10) of claim 1 or 9, wherein the apron (1 44') includes a rigid portion, the rigid portion is located at a bottom portion (144e) of the rigid faceplate structure (14') and configured to be in direct contact with the mounting surface (50) and act as a supporting member.
11. The adhesive mounting article (10) of claim 1, wherein the rigid faceplate structure (14') further includes a mounting member (18') disposed on the first major surface (141) of the rigid faceplate (142').
12. The adhesive mounting article (10) of claim 11, wherein the mounting member (1 8') includes a hook that is permanently attached to the rigid faceplate (142').
13. The adhesive mounting article (10) of claim 1, wherein the rigid faceplate (142') is made of polycarbonate (PC) or acrylonitrile butadiene styrene (ABS).
14. The adhesive mounting article (10) of claim 1, wherein the separable connection formed between the first and second separable connecting members (162, 164) includes at least one of a hook-loop connection, a dual-lock connection, a micro-rail connection, and a magnetic connection.
15. The adhesive mounting article (10) of claim 1, wherein the rigid faceplate structure (14') further includes a rigid supporting member (42') disposed on a lower portion of the first major surface (141) thereof, and the rigid supporting member (42') is positioned vertically lower than the flexible adhesive tape structure (12) and configured to be in direct contact with the mounting surface (50) when the rigid faceplate structure (14') is connected, via the separable connection, to the flexible adhesive tape structure (12).