A logo is generally a symbol used by a commercial enterprise, an organization, or even an individual to aid and promote public recognition of a brand. In particular, a logo is typically placed on a product, marketing material, letter head, building, or another object associated with the commercial enterprise, organization, or individual to bring brand awareness. Some logos are purely graphic, while others are composed of text. In addition, some logos are composed of both graphics and text.
Examples are described in the following detailed description and in reference to the drawings, in which:
a)-1(e) depict a side view an example system in different phases of operation in accordance with an implementation;
a) and 2(b) depict an example system comprising a housing and/or detachable member with a magnet in accordance with an implementation;
a) and 4(b) depict a three-dimensional view of an example detachable member and housing in accordance with an implementation; and
a)-5(d) depict various detachable members in different orientations in accordance with various implementations.
The present disclosure is generally directed to a detachable member and/or an associated housing architecture. More particularly, the present disclosure is generally directed to a novel and previously unforeseen architecture for a detachable member and associated housing which enables the member to be manually detached from the housing in a rapid and tool-less manner. In some examples, the detachable member may be removed, rotated, and re-inserted in the housing in a different orientation.
As mentioned in the foregoing, a logo may be placed on a product to aid and promote public recognition of a brand. For example, a logo may be placed on a liquid crystal display (LCD) to provide a viewer with instant recognition of the LCD's manufacturer. In particular, the logo may be placed on a single portion of the LCD housing (e.g., the lower edge of the housing), and be intended to be viewed from a single orientation (e.g., 0°).
A problem, however, exists when the product may be rotated and properly operate in a plurality of orientations (e.g., an LCD that properly operates at 0°, 90°, 180°, and 270°). In this case, the logo associated with the product may be appear upside down/sideways and be difficult to identify in certain product orientations. This is commonly the case when the logo comprises text (e.g., HP®) or a graphic that is meant to be viewed from a single orientation (e.g., the Nike® Swoosh).
Prior attempts have been made to rectify this situation by providing solutions to re-orient a logo, but such solutions have been, among other things, cumbersome to utilize and/or costly to implement. For example, one solution requires a plurality of tools and a significant amount of time to remove a product bezel, remove fasteners associated with a logo, and reinstall the logo in another orientation. Another solution requires a significant cost expenditure to submerge the logo in a liquid and utilize a magnet and/or gravity to automatically self-orient the logo as the product rotates.
Aspects of the present disclosure attempt to address the shortcomings of the above-mentioned solutions by providing an intuitive, tool-less, and cost-sensitive architecture that enables a detachable member (e.g., a logo, symbol, and/or text) to be removed and rotated. More particularly, aspects of the present disclosure provide a detachable member that is easily re-positionable without having to disassemble the product.
For instance, in one example implementation, a system is provided which comprises a housing and a detachable logo. The housing comprises a recess, and the recess comprises a protrusion and a recessed bay, where the protrusion is to contact the logo. Depression of a portion of the logo causes the portion of the logo to sink into the recessed bay while an opposing portion of the logo protrudes from the housing. A user may then grasp the protruding portion of the logo, remove the logo from the housing, and re-insert the logo in the recess in a different orientation.
In another example implementation, a system comprising a housing and a recess within the housing is provided. The recess comprises a protrusion to magnetically contact a detachable member, and further comprises at least two recessed bays adjacent to the protrusion. One of the at least two recessed bays is to receive a portion of the detachable member upon depression of the portion of the detachable member such that an opposing portion of the detachable member protrudes from the housing. A user may then grasp the protruding portion of the detachable member, remove the detachable member from the housing, and re-insert the detachable member in the recess in a different orientation.
In yet another example implementation, an electronic device comprising a housing and a manually detachable logo is provided. The housing comprises a recess that includes a protrusion and a recessed bay. The protrusion is to magnetically affix to the manually detachable logo, and depression of a portion of the manually detachable logo causes the portion of the manually detachable logo to sink into the recessed bay while an opposing portion of the manually detachable logo protrudes from the housing. A user may then grasp the protruding portion of the logo, remove the logo from the housing, and re-insert the logo in the recess in a different orientation.
a)-1(e) depict a side view of an example system 100 in different phases of operation in accordance with an implementation. The system comprises a housing 110 and a detachable member 120. It should be readily apparent that the system 100 is a generalized illustration and that other elements may be added or existing elements may be removed, modified, or rearranged without departing from the scope of the present disclosure.
The system 100 generally comprises any type of product which may include the housing 110 and the detachable member 120. For example, the system 100 may comprise an electronic device (e.g., a display, a digital frame, a rack mounted hard disc drive, a rack mounted workstation, a computer, a television, a digital sign, or the like), a frame, a sign, a vehicle, a household appliance, furniture, or any other type of tangible product.
The housing 110 may form at least a portion of an outer surface the system. For example, the housing 110 may form at least a portion of an outer surface of a display. The housing 110 may be formed of one or more synthetic and/or naturally occurring materials (e.g., steel, aluminum, plastic, wood, etc.). In some implementations, and as discussed further with reference to
The detachable member 120 generally comprises any type of member which may be positioned within the housing 110 and manually removed from the housing 110. For example, in some implementations, the detachable member 120 comprises a logo associated with a brand (e.g., HP®). In other implementations, the detachable member 120 comprises an emblem, symbol, or insignia not associated with a brand (e.g., a graphic image of a dragon). In still other implementations, the detachable member 120 comprises a customizable emblem, symbol, or insignia (e.g., a person's last name).
The detachable member 120 may be formed of one or more synthetic and/or naturally occurring materials (e.g., steel, aluminum, plastic, wood, etc.). In some implementations, and as discussed further with reference to
The perimeter of the detachable member 120 may be a symmetrical shape. More particularly, in some implementations, when the detachable member 120 is inserted in the housing 110 and being viewed by a user facing the product, the perimeter of the detachable member 120 may have a symmetrical shape. For example, the detachable member 120 may have a circular shape or square shape. These shapes enable the detachable member 120 to be removed, rotated, and reinserted into the housing 110 at various angles (e.g., 0°, 90°, 180°, and 270°). In other examples, the detachable member is a rectangular or oval shape, such that the detachable member 120 may be removed, rotated, and reinserted into the housing 110 at fewer angles than mentioned above (e.g., 0° and 180°).
Turning now to system 100 operation,
It should be understood that while the detachable member 120 is shown in
a) and 2(b) depict an example system 200 comprising a housing 110 and/or detachable member 120 with a magnet 210. In particular, in various implementations, the detachable member 120 is affixed to the protrusion 140 within the housing 110 via a magnetic bond. As shown in
As is depicted in
a) and 4(b) depict a three-dimensional view of an example detachable member and housing in accordance with an implementation. In particular,
a)-5(d) depict various detachable members in different orientations in accordance with various implementations. In particular,
The same applies to the square detachable member depicted in
Turning now to
In some implementations, a piece of material may be affixed to the back of the detachable member and the housing. The piece of material may tether the housing and detachable member to one another so that the detachable member is not lost, misplaced, or even stolen upon removal of the detachable member from the housing. Depending of the implementation, the piece of material may be a string, cord, thread, fiber, plastic piece, or any other material that may flexibly link the detachable member and the housing. In some implementations, the tether may be a retractable tether such that it automatically retracts after the detachable member is pulled from the housing and released.
The foregoing provides a novel and previously unforeseen solution that enables rapid and tool-less removable of a detachable member such as a logo. Depending on the use case, the detachable member may be re-oriented and inserted into the housing, or replaced with an alternative detachable member and re-inserted. This may be useful, for example, in situations where products may properly operate in a plurality of orientations, or when a product is being rebranded. While the above disclosure has been shown and described with reference to the foregoing examples, it should be understood that other forms, details, and implementations may be made without departing from the spirit and scope of the disclosure that is defined in the following claims.