The present disclosure generally relates to methods of displaying and merchandising products in retail establishments, and more particularly, relates to a method of providing a customer interactive display for showcasing multisensory products.
Promoting merchandise within a retail environment using product displays and fixtures are well known in the art. Promotional displays serve to catch the attention of customers, spark an interest in a product, and to eventually persuade customers to purchase the product. Displays attempt to accomplish this in any one of a variety of ways and may take any form. But in particular, product displays need to set a product apart from its competition within a retail environment, without being too excessive or intrusive to customers.
Some of the more common methods of merchandising use images, posters, signage or banners to promote a product. Because of the widespread use of such imagery, however, such displays tend to be too plain and blend into a retail setting. To further set a product apart from its surroundings, some displays may employ sound effects, music, video or other media. However, the volume on such displays may be set too low for the environment to effectively advertise the product. Alternatively, the continuous playback of such media may prove to be too loud, annoying, and deter rather than attract customers. Although some displays also provide motion sensors to play such media only when customers are nearby, the sensors are often too sensitive and do not help to that effect. While there are several ways to promote a product at the point of sale, the more effective methods tend to provide alluring displays that also allow customers to fully sample the product. More specifically, a method of displaying a product may provide a proper showcase and a demonstration, or dummy model, of a particular product for customers to evaluate and test in the store before purchase.
With respect to lighting products, a demonstration model of the product may be displayed within the store. However, displays promoting lighting products are generally uninteresting, unattractive, and offer customers limited, if any, interaction with the device. Furthermore, typical retail stores do not provide an elaborate display for only one product or manufacturer. Specifically, if a demonstration model is provided for one lighting unit it will almost certainly be surrounded by several other similar displays for competing units grouped into the same aisle, department, or the like. This arrangement makes it difficult to set a particular lighting product apart from the competition. Additionally, light from surrounding units and strong overhead lights typically found in retail stores make it extremely difficult to evaluate the illumination of a single lighting product.
Methods of promoting fragrance objects similarly provide demonstration bottles or testers for sampling. Testers are bottles of perfume that customers can spray into the air or onto a sampling card at the point of sale to sample a scent. However, multiple testers from different manufacturers are usually grouped together in a single area designated for sampling. As with displays for lighting products, this makes it difficult to distinguish and advertise one particular fragrance product over the competition. Furthermore, testers are generally provided only for perfumes and colognes, but not for fragrance dispensers designed for the home. Consequently, when selecting a fragrance for home use, customers are forced to guess by reading the description on package labels, smelling the packaging, or opening the package in the store.
Therefore, multiple needs exist for an effective method of displaying and merchandising products that provides an interesting destination within a retail environment as well as proper demonstrations of products associated with lighting, fragrance, or the like. More specifically, needs exist for a method of displaying products that attracts customers from a distance, sets the products apart from the competition, substantially blocks unwanted ambient light, and also provides customer interaction. The ideal method of displaying should also be cost-conscious and provide a display that may be easily installed and readily adaptable to new products or changing retail environments. The display provided by such a method should also require minimal space and mountable on existing shelving units.
In accordance with one aspect of the disclosure, a method of displaying a product comprises the steps of providing an upright display member having at least one lighting niche, a first dynamic light source disposed in the at least one lighting niche for projecting light onto the product, a second dynamic light source disposed in the product for illuminating the product, a control module with a memory operatively associated with the first and second dynamic light sources, and an interactive customer interface for receiving customer input; positioning the product inside the at least one lighting niche; supplying power to the control module; reading one or more light shows stored on the memory; controlling the first and second dynamic light sources to illuminate according to the one or more light shows; and adjusting the one or more light shows in response to the customer input.
In accordance with another aspect of the disclosure, a method of displaying a lighting product comprises the steps of providing an upright display member having at least one lighting niche, a first dynamic light source disposed in the at least one lighting niche, a control module with a memory operatively associated with the first dynamic light source, and an interactive customer interface for receiving customer input; positioning the product inside the at least one lighting niche; supplying power to the control module; reading one or more light shows stored on the memory; controlling the first dynamic light source to illuminate according to the one or more light shows; and adjusting the one or more light shows in response to the customer input.
In accordance with another aspect of the disclosure, a method of displaying products comprises the steps of providing an upright display member having at least one lighting niche, a product experience shelf, a first dynamic light source disposed in the at least one lighting niche, a second dynamic light source disposed in the product experience shelf, a control module with a memory operatively associated with the first and second dynamic light sources, and an interactive customer interface for receiving customer input; positioning a first product inside the at least one lighting niche and a second product on the product experience shelf, supplying power to the control module; reading one or more light shows stored on the memory; controlling the first and second dynamic light sources to illuminate according to the one or more light shows; synchronizing the one or more light shows between the first and second dynamic light sources; and adjusting the one or more light shows in response to the customer input.
In accordance with another aspect of the disclosure, a method of merchandising products comprises the steps of providing an upright display member having at least one lighting niche, a product experience shelf, an illuminating member disposed on top of the upright member, a first dynamic light source disposed in the at least one lighting niche, a second dynamic light source disposed in the product experience shelf, a third dynamic light source disposed in the illuminating member, a control module with a memory operatively associated with the first, second and third dynamic light sources, and an interactive customer interface for receiving customer input; positioning a first product inside the at least one lighting niche and a second product on the product experience shelf; supplying power to the control module; reading one or more light shows stored on the memory; controlling the first, second and third dynamic light sources to illuminate according to the one or more light shows; synchronizing the one or more light shows between the first, second and third dynamic light sources; and adjusting the one or more light shows in response to the customer input.
These and other aspects of this disclosure will become more readily apparent upon reading the following detailed description when taken in conjunction with the accompanying drawings.
While the present disclosure is susceptible to various modifications and alternative constructions, certain illustrative embodiments thereof have been shown in the drawings and will be described below in detail. It should be understood, however, that there is no intention to limit the present invention to the specific forms disclosed, but on the contrary, the intention is to cover all modifications, alternative constructions, and equivalents falling with the spirit and scope of the present invention.
Referring now to the drawings and with particular reference to
A method of displaying a product may provide an illuminating product display 10, as shown in
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The product experience shelf 18b may provide an interactive customer interface 20b that allows customers to adjust the dynamic light output of an illuminating product display 10b. The customer interface 20b may be provided in many different forms including but not limited to dials, keypads, switches, touchscreens and or similar input devices, operatively associated with a control module, which in turn, controls the output of all dynamic light sources disposed throughout the illuminating product display 10b. Additional dynamic light sources within the product experience shelf 18b may be configured to add illumination underneath and or around the customer interface 20b. The customer interface 20b may also include a translucent ring or border lining the outer edge of the input device for additional lighting effects. Alternatively, the interactive customer interface 20b may be disposed on the cover 22b, within a lighting niche 16b, or on any other portion of the display 10b of
In other related embodiments, more than one interactive customer interface 20b may be provided on the product experience shelf 18b to allow independent adjustment of subgroups of the dynamic light sources. For instance, a first interface may adjust the dynamic light output within a lighting niche 16b while a second interface may adjust the dynamic light output of a lighting product or object 21b positioned therein. The display 10b may also provide additional customer interfaces 20b so as to allow multiple users to independently control light shows at one display setting.
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Light shows may include any predetermined sequence or pattern of lighting that may be performed by the dynamic light sources provided within the display 10c. For example, light shows may include pulsing of one color, transitions from one color to another, transitions from one set of colors to another, or any combinations thereof. Alternatively, light shows may also be synchronized with music, nature sounds, sound effects, or other audio output. The microprocessor 38c may serve to coordinate such light shows stored on a memory 40c internal to the microprocessor 38c. Alternatively, the memory 40c may be provided as a replaceable cartridge external to the microprocessor 38c so as to provide and facilitate light show modifications and other upgrades. The microprocessor 38c may read the light shows stored in memory 40c and output corresponding instructions to the driver circuit 42c. The driver circuit 42c may output signals to control the lighting effects of each dynamic light source according to the instructions transmitted by the microprocessor 38c. When incorporating audio output, the driver circuit 42c may output corresponding signals to a speaker 44c, as shown in phantom. The microprocessor 38c may also serve to execute instructions input by a customer via the interactive customer interface 20c. For instance, if a customer uses the interface 20c to select a different color or light show, the microprocessor 38c may receive the instruction from the interface 20c and adjust its output to the driver circuit 42c accordingly.
In an exemplary method of displaying a product 21c, a first step 50 may provide the display 10c of
In a second step 52a, products 21c, such as lighting products, may be positioned in the lighting niches 16c. As shown in phantom, additional products 26c, such as fragrance products, may also be positioned on the product experience shelf 18c in an optional step 52b. A third step 54 of the method may supply power to the control module 32c, and subsequently read one or more light shows stored on the memory 40c in a fourth step 56a. In a fifth step 58a, the dynamic light sources may be controlled to illuminate according to the light shows stored on the memory 40c. The light shows may be synchronized between all of the dynamic light sources positioned throughout the display 10c. Alternatively, the memory 40c may also store sound files which may be read in an optional step 56b and subsequently played through an optional speaker 40c in a following step 58b. A final step 60 may further allow adjustments of the light shows in response to customer input received by the interactive customer interface 20c.
Based on the foregoing, it can be seen that the present disclosure provides a method of displaying and merchandising a product which creates an interesting destination for potential customers within a retail environment. The multisensory technology integrated into the display provided by the method attracts customers to a product. Using the embodiments and methods disclosed herein, it is possible to provide a display which coordinates and synchronizes light shows throughout the display and allows customer interaction via an interactive customer interface. Specifically, the method provides a display that allows customers to sample various products at the point of sale. Furthermore, by combining interchangeable modules of the display, the method is adaptable to accommodate any product, product line or retail environment.
While only certain embodiments have been set forth, alternatives and modifications will be apparent from the above description to those skilled in the art. These and other alternatives are considered equivalents and within the spirit and scope of this disclosure.