N/A.
The present subject-matter relates to a stand kiosk for the presentation to users, of both display and interaction technology devices, and, more particularly, to the manufacture and assembly of components made of dissimilar materials in the production thereof.
There are many products in the market as kiosks created to integrate technology equipment for interaction with people. Those available in the market are characterized by an often poor resolution of the numerous competing needs for: the method of manufacture, materials, size to stability issues, ergonomics, associated device concealment or attachment, maintenance access, and visual appeal as a free standing object.
Therefore, it would be desirable to provide a small form kiosk that takes into consideration these multiple competing factors.
It would thus be desirable to provide a novel floor standing kiosk for interactive technology devices.
The embodiments described herein provide in one aspect a stand for a presenter, lecturer and the like, comprising a support structure, a base provided at a lower end of the support structure, and a device holding structure provided at an upper end of the support structure, wherein devices are adapted to be removably mounted to the device holding structure.
For a better understanding of the embodiments described herein and to show more clearly how they may be carried into effect, reference will now be made, by way of example only, to the accompanying drawings, which show at least one exemplary embodiment, in which identical reference numerals in different figures indicate like elements and in which:
The present subject-matter is a new approach to the resolution of the aforementioned multiple competing factors. It is based in a unique approach to which materials are used, where, and how they can be used to overcome these competing constraints and create an improved product, cost and user experience.
It is configured and dimensioned for high ergonomics of human form interaction. The present subject-matter takes the form of a small form kiosk that integrates and conceals the various non-included components in its small size. The purpose of the kiosk is to provide small, attractive and efficient support. It is used for disseminating, collecting, sharing information, and outputting physical vouchers.
The present kiosk includes integration of these devices and other devices adding physical output, and sensory feedback. This unit is for use wherever a floor standing installation can be deployed to serve people standing upright.
The present kiosk is compact, stable, attractive, and non-intrusive, and it is achieved by a unique combination and connection of materials and manufactures; for instance, one of compressed recycled crumb rubber, another of folded and then tack welded metal plate requiring, for example, only a two-screw connection between these two elements, and a third also of folded metal. Attachment of, and access to multiple associated devices is concealed and requires a significantly low number of physical connectors.
In an embodiment, as seen for instance in
The construction of the stand or kiosk K integrates significant functional requirements of human ergonomics, a small form, a unique integration of materials, and uses crumb rubber from recycled tires with any metal bent from sheet. More particularly, the kiosk K includes a rubber base 3, made for instance of compressed recycled tire crumbs; a superstructure 4, made for instance of ant type of bent/folded sheet metal; and a spring plate 5 provided at an upper end of the superstructure 4.
The rubber lower base 3 can integrate various choices of colour, and the upper metal superstructure 4 can be of many types of metal finish, perforation, pattern, applied colour, coating or applied chemical technique, applied to the base metal. This can also include applications of wrapping of the metal component with decorative applied film designs that are installation location specific.
The stand or kiosk K is made with two manufactures and a variety of pieces and attachments that are then assembled together.
The display stand or kiosk K integrates two primary manufactures into a single object. The first is compressed crumb rubber from recycled tires creating the stable base form, e.g. the base 3. The second is folded plate metal providing the vertical support, e.g. the superstructure 4, which includes an affixation plate 6 for non-included devices. Combined in the assembly they become a distinct assembly, composition, and resolution creating a functional object that optimizes its configuration for human ergonomic standards.
The base 3 is manufactured by typical process and machinery for compression moulding of recycled ‘crumb rubber’ pellets. The base 3 includes a steel counterweight 7 that is placed within the rubber during the filling and compressing sequence so as to arrive at the specified location upon completion of the compression.
A top square opening 8, of 2 inch by 2 inch by 6 inches deep, is created by moulding into, and flush with the top surface, a section of square aluminum tube. This tube is anchored with 2 transverse ¼ inch diameter by 6 inch long aluminum rods welded to the tube at the mid-point, these are concealed within the rubber when compressed. In lieu of the aluminum this insert assembly can alternatively be made of similarly sized square steel tube and ¾ inch by ¾ inch steel angles by six inches welded to two opposite sides at midpoint.
The superstructure 4 is made with sheet metal that is cut and then bent according to a folding diagram. Various metals, from 16 to 20 gauge, can be used. Various metal surfaces and/or perforation patterns may be used. Various surfacing techniques may be used. The superstructure 4 may have paint applied by any process.
The sheet metal is laser cut and folded or bent with typical machinery and processes. Tack welds connect contact points of the folded result. This metal superstructure 4 is now ready to be installed on the rubber base 3.
An additional metal clip plate 5 (spring plate) is also made by cut and bent from similar sized plate metal. Once folded this plate 5 becomes a clip that inserts through specifically sized openings 9 in the superstructure 4 to hold a receipt printer, or alternative, in place (see
Attachment of the two main components, namely the base 3 and the superstructure 4 is accomplished in the following three steps.
Firstly, the metal superstructure 4 is slid down over the top of the base 3, where tension, friction, and the mortise over tenon effect provide the necessary connection therebetween.
Secondly, a length of fibreglass square tube is inserted in the top opening 8 in the center of the base 3 and secured in place by way of screws or alternate attachment.
Thirdly, a bolt and nut, with lock washers, are placed and secured through the hole in the metal superstructure 4 attachment flap and the aligned hole in the vertical center tube now attached in the rubber base 3.
The kiosk's qualities are integral to the form, materials, detail and surface treatments afforded by the materials and their manufacture. Embodied by: the slenderness, the footprint shape and size of the base 3 that produces the stability and gravity defying appearance; the effect of presenting any associated device 1 perched as the pinnacle feature at the top of an iconic presentation style support shape or superstructure 4; the varying sizes, shapes and angles of the front and side facets of the folded metal of the superstructure 4, which add a perception of vertical convergence; and the curvature, in plan, of the base 3, wherein the visual design is integral to functional tipping resistance.
The present kiosk K has no apparent seems or physical connectors. The kiosk K has hidden connection of component pieces, minimal mechanical fastenings, and no apparent fastening of components, with concealed cable management between associated equipment. It conceals subcomponent mounting by employing gravity and minimum mechanical fastening, and provides a minimally sized enclosure for a thermal printer, small form computer, or other similarly sized devices.
Alternative bases, such as base 3′ of
The purpose is of the bases 3′ and 3″ is to provide an assembly comprised of lesser weight components, which benefit shipping, handling and assembly. For instance, each component is less than 48 pounds Imperial weight.
An additional purpose of the bases 3′ and 3″ is to provide an option to the present kiosk, which option provides additional total weight and a lower centre of gravity for use in installation locations subject, for example, to more abuse. The steel anvil 12, which includes a base 13 and a welded steel post 14, will be an additional component added for such situations. The anvil 12 may be varied in weight by increasing or decreasing the thickness, shape or size of the bottom steel block, i.e. of its base 13. The shape, dimensions and depth of a recess 16 in the bottom rubber component (base 3′ or 3″) may vary to accommodate other shapes, sizes or weights of anvil.
A base top 17 can also be provided, as seen in isolation in
Aluminum extrusions 11 and 15 are used in the (square) holes of the base 3′ or 3″ and of the base top 17 during the molding thereof.
These iterations of the bases also show options for the bottom compressed recycled rubber sub component to be produced in the shape of a facetted cone (e.g. see
a to 46c provide further details regarding the present kiosk designs, including on some of the features thereof.
Therefore, the present kiosks combine a compress formed recycled rubber base with a folded plate metal superstructure. The base conceals a metal counterweight, and additional attachments in a variation of mortise and tenon type connection between the rubber base and the metal superstructure. The superstructure is cut and folded from sheet metal in a manner so as to provide an adequately rigid structural shape and to support and conceal associated devices, provide appropriate structural performance, and require a minimum of mechanical attachments to associated devices. Gravity based seating of components and/or tension clipped brackets position and hold additional associated devices. Cable management is provided within the superstructure by the shape of the folds and the sizing of cut and folded plates, so as to create a vertical channel that contains and conceals wiring.
The shape, size and dimensions of the kiosks are specifically created to improve upon the head, eye, neck, shoulder, arm and hand positioning for the users. The positioning of any attached screen relative to the superstructure and base provides for users to position their feet and body without impediment from projections, providing the ‘toe kick’ clearance effect typical in kitchen counter designs.
The kiosk designs thus embody an experiential optimum with the human form of users, the positioning, dimensioning and angles of attachment plate, the height and reach dimensioning combined with the minimal projection of the base towards user's foot position. The overall effect is an object embracing human factors within a clean, sleek integration without sacrificing structural or physical efficacy.
The following points are also provided:
1. The Manufacture and Assembly of the Small Form Floor Standing kiosk for interactive technology devices comprising:
2. The Compressed Recycled Crumb Rubber Base for a Steel Base superstructure
3. The Manufacture of the Steel Base Superstructure for a Compressed Recycled Crumb Rubber Base
4. The Spring Plate to Provide Concealed Placement and Attachment of associated devices without mechanical fastening
While the above description provides examples of the embodiments, it will be appreciated that some features and/or functions of the described embodiments are susceptible to modification without departing from the spirit and principles of operation of the described embodiments. Accordingly, what has been described above has been intended to be illustrative of the embodiments and non-limiting, and it will be understood by persons skilled in the art that other variants and modifications may be made without departing from the scope of the embodiments as defined in the claims appended hereto.
Number | Date | Country | |
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62492914 | May 2017 | US |