The present invention is directed to a display merchandiser, and more particularly, to an inexpensive, disposable refrigerated merchandising apparatus having improved cooling capabilities and very high load capacity shelves.
For many years now, manufacturers with temperature sensitive products, primarily food or other consumable products, have sought a means by which their merchandise may be displayed openly, yet maintained at a desired, lower than ambient temperature. One approach includes permanent refrigerated display merchandisers constructed mainly of metal. These permanent units utilize a refrigeration unit enclosed and secured within the base and a fan associated therewith to move the refrigerated air up and over the merchandise displayed therein. Generally, at least one ducted outlet adjacent the front opening of the permanent merchandisers are oriented to create an air curtain for the apparatus. Essentially, the air curtain is a column of air which descends from the upper outlet to the lower refrigeration unit intake in order to prevent the cold air from spilling out of the apparatus. Other outlets are provided for the discharge of the refrigerated air to cool the merchandise.
One disadvantage of these permanent-type apparatus is that they are very costly to use for manufacturers test marketing new products. The increased capital first associated with a test marketing campaign often prohibits the introduction of many products.
Refrigerated merchandising display apparatus have been introduced for the test marketing campaigns. Generally, these apparatus include a housing having a receptacle for receiving a cooling module which provides refrigerated air for the merchandise. One major disadvantage of the prior art designs is that the air flow is not tightly controlled. Another disadvantage is that the construction of the housing is substandard for extended test marketing use. The housing is commonly constructed of corrugated cardboard. Wax-coated corrugated cardboard was introduced to delay the effects of liquid spills within the housing. However, prior art merchandising apparatus of this design are inferior for extended use and cannot accommodate larger packages of the merchandise because the shelves cannot handle the high weight requirements.
Therefore, there exists a need in the prior art for a refrigerated merchandising apparatus having improved strength and air flow handling characteristics which is inexpensive and disposable, if desired.
The invention may best be understood by reference to the following description taken in conjunction with the accompanying drawings, in the several figures at which like reference numerals identify like elements.
The refrigerated merchandiser of the present invention includes a display case and a cooling module. The display case includes a plurality of walls defining a cavity and a receptacle. The cavity is defined by a back wall, a pair of opposed side walls, a front wall, a top wall and a bottom wall. And the receptacle is defined by the back wall, the side walls, the front wall and the bottom wall. The bottom wall separates the cavity from the receptacle and includes an opening for fluid communication between the receptacle and the cavity. The receptacle is configured to receive the cooling module.
A plurality of vertically spaced shelves are disposed in the cavity extending between the side walls and include a top surface, a bottom surface and a rear surface. A display zone is defined as a volume disposed above the top surface of each shelf for the display of merchandise. A back panel is disposed in the cavity adjacent the back wall and spaced therefrom contiguous with the rear surface to define a duct in fluid communication with the bottom wall opening. The back wall includes a plurality of elongated openings, each disposed in fluid communication with the duct and one of the display zones. A turbulence generating element is disposed in each display zone adjacent the elongated opening.
A cooling module output for refrigerated air is in fluid communication with the bottom wall opening such that the refrigerated air moves through the duct and the back panel openings into contact with the turbulence generating elements which generate non-laminar air flow thereby blanketing the merchandise before falling to a return path.
In one embodiment of the present invention, a shelf for use in the refrigerated merchandiser includes a pair of foam elements, each having opposing first sides and a pair of opposing second sides. A C-channel element is connected to each first side defining a pair of core components. A length of corrugated cardboard covers the core components.
A plurality of vertically spaced shelves 40 are disposed in the cavity 24 extending between the side walls 29, 30. As best seen in
A display zone 48 is defined as a volume disposed above the top surface 42 of each shelf 40 for the display of merchandise. Generally, the display zone 48 is defined as that volume above the top surface 42 of a shelf 40 and bounded at the top by an adjacent shelf 40 or top wall 34 and at the sides by the respective opposed side walls 29, 30. The front of the display zone 48 is unbounded and generally defined by the front surface of the shelf 40. A back panel 50 defines a boundary of the rear of the display zone 48.
The back panel 50 is disposed in the cavity 24 adjacent the back wall 28 and spaced therefrom contiguous with the rear surface 46 of each shelf 40 to define a duct 52 in fluid communication with the bottom wall opening 38. The back panel 50, as best seen in
A cooling module output for refrigerated air 58 is in fluid communication with the bottom wall opening 38 such that the refrigerated air, indicated by the arrows, moves through the duct 52, through the back panel openings 54 and into contact with the turbulence generating elements 56 which generate non-laminar flow above the merchandise 60. The refrigerated air flow is thereby slowed down so that the merchandise 60 is blanketed with refrigerated air before the air flow falls to a return path, generally indicated by arrow 62.
In one embodiment of the present invention, the back wall 28, side walls 29, 30, top wall 34 and shelves 40 have a composite construction. Preferably, the composite construction includes at least a foam element and corrugated cardboard elements.
The back wall 28, sides walls 29, 30 and top wall 34 preferably have a composite construction wherein the corrugated cardboard is connected to an exterior surface of the foam element. In another embodiment of the present invention, an additional corrugated cardboard element may be connected to an interior surface of the foam element. It is within the teachings of the present invention that the corrugated cardboard element referred to herein may also include any corrugated cardboard having a coating applied thereto to resist moisture. Such coating may be any suitable coating used in the art. For example, the coating may be a wax, plastic or any other suitable element.
Referring to
In this embodiment of the present invention, each back panel elongated opening 54 extends substantially between the side walls 29, 30. Further, each elongated opening 54 is disposed adjacent the top boundary of the display zone 48. The turbulence generating elements 56, in this embodiment, are disposed in the display zones 48 adjacent the elongated opening 54.
At least one shelf 40 has the turbulence generating element 56 connected to the bottom surface 44 thereof. Preferably, a turbulence generating element 56 is connected to the bottom surface 41 of each shelf 40 other than a lower-most shelf. Further, the top wall 34 includes an inner surface 70 having the turbulence generating element 56 connected thereto. In one embodiment of the present invention, the turbulence generating elements 56 are generally vertically aligned.
In another embodiment of the present invention, the top wall 34 includes a second turbulence generating element 56 disposed on the inner surface 70 spaced from the first turbulence generating element 56 adjacent the front-boundary of the display zones.
It is within the teachings of the present invention that all other walls of the display case 20 may be constructed in a composite manner as described above. In one embodiment of the present invention, the bottom wall 36 is constructed of plywood or other suitable material.
In operation, the refrigerated merchandiser 10 is lowered into position over the cooling module 22 in the direction of arrow 72 such that the bottom wall 36 is supported by a top surface 74 of the cooling module 22. The cooling module 22 is connected to a conventional power source such as an electrical wall outlet in order to activate operation of the cooling unit 22. Air is drawn into the cooling portion 76 of the cooling module 22 through opening 78. The cooling area 76 of the cooling module 22 is shown as a schematic representation as the structure and operation thereof are conventional in the art. After the air has been appropriately cooled, a fan 80 further redirects the air from the cooling module output through the bottom wall opening 38 into the duct 52 for distribution throughout the display case 20.
The refrigerated air flow moves up the duct 52 and is discharged generally as laminar air flow through the elongated openings 54 into contact with the turbulence generating element 56 disposed adjacent the elongated opening 54 in the respective display zone 48. The turbulence generating elements 56 disrupt the laminar flow of the air discharged from the elongated openings 54 such that the airflow tumbles across the merchandise 60 as shown by the arrows in
The second turbulence generating element 56 disposed on the inner surface 70 of the top wall 34 aids in redirecting the air flow from the top shelf 40 in the direction of a return path 62. The resulting downward air flow urges air exiting from lower display zones 48 to also enter the return path 62. The transparent panel 68 helps retain the air flow within the display case 20 such that it may be recirculated as explained above.
Referring now to
As best shown in
The method of constructing a very high load capacity yet lightweight shelf, in accordance with one embodiment of the present invention, for use in a refrigerated merchandiser includes the steps of: (1) providing a pair of elongated foam elements 100, each having a pair of opposed first sides 102 and a pair of opposed second sides 104; (2) attaching a C-shaped channel element 106 to each first side to define a pair of core components (see
The invention disclosed herein is not limited to the particularly details of the apparatus depicted and modifications and applications maybe contemplated. For example, the materials described herein maybe substituted with any other suitable or less expensive materials which are suitable for the intended use. For example, various structures and configurations maybe used for the compositely formed shelves of the present invention. Certain other changes may be made in the above described apparatus with allowed to bargain from the true spirit and still of the invention here involved. Is intended, therefore that the subject matter of the above depiction shall be interpreted as illustrated and not in a limiting sense.
This application is a divisional of application Ser. No. 10/757,777, filed Jan. 15, 2004, now U.S. Pat. No. 6,945,415, entitled “REFRIGERATED MERCHANDISING APPARATUS”; which is a divisional of application Ser. No. 10/334,854, filed Dec. 31, 2002, now U.S. Pat. No. 6,701,736, entitled “REFRIGERATED MERCHANDISING APPARATUS”.
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Number | Date | Country | |
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20050160751 A1 | Jul 2005 | US |
Number | Date | Country | |
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Parent | 10757777 | Jan 2004 | US |
Child | 11087980 | US | |
Parent | 10334854 | Dec 2002 | US |
Child | 10757777 | US |