1. Technical Field
This invention relates generally to the field of voting and balloting equipment, and more particularly to a portable voting booth and the construction of a leg-holding portion of the voting booth.
2. Description of Related Art
Some existing portable voting booths take the form of a suitcase-like enclosure with two hinged-together sections that remain closed for storage and transportation while opening about ninety-degrees for use on election day. In the open configuration, the first section provides a base having an upwardly facing surface upon which voters mark ballots or other vote-recording paraphernalia, with the second section serving as an upstanding rear wall of the voting booth. Two panels are included in the enclosure for use as upstanding left and right side walls that provide additional voting-booth privacy.
The enclosure also contains a set of four, multi-section, tubular legs. A worker at a polling place erects the voting booth by first assembling the leg sections. Next, the worker inserts an end portion of each leg axially into a respective one of four downwardly opening, leg-receiving bores (also referred to as sockets) that are included for that purpose at the four corners of the base. With the end portions of the legs inserted into the sockets and the base in a ready-to-use position parallel to a floor or other horizontal support surface, the legs extend downwardly from the base in order to thereby elevate the base above the floor. Voters cast their votes using the upwardly facing support surface of the base while standing at the voting booth.
Although such a portable voting booth can be quite handy and effective in many respects, the tubular legs sometimes drop out of their sockets during erection. This also tends to happen during movement of an already erected voting booth to a different location at a polling place. Dimensional variations are often the cause. Each socket typically includes a cylindrically shaped inner wall that defines an opening into which one of the legs is inserted. The cylindrical wall is dimensioned to receive the end portion of the tubular leg in a close fit. As long as the end portion of the leg fits in somewhat tightly, the leg stays in place. When the fit is too loose, however, the leg can easily drop out.
Although the effect of gravity tends to hold the voting booth together once it is erected in an upright position, the task of inserting the legs into the sockets and then positioning the voting booth in the upright position can be quite frustrating. This problem can be even more troublesome to the senior-citizen workers commonly seen working at voting places. Thus, a need exists for a portable voting booth that overcomes this problem.
In view of the foregoing, it is an object of the present invention to provide a portable voting booth with a leg structure that overcomes the problem outlined above. The present invention achieves this objective by providing a portable voting booth having a base portion with leg-receiving sockets and one or more leg-gripping components within each leg-receiving socket. Preferably, the leg-gripping components include axially extending fingers that resiliently deform slightly when tubular end portions of the legs are inserted into the sockets to thereby fit into the end portions. The fingers bear radially outward against radially inwardly facing inner walls of the end portions to thereby hold the legs in place. No screws, clips, or other fasteners are required.
To paraphrase some of the more precise language appearing in the claims and further introduce the nomenclature used, the invention provides a portable voting booth for a user to erect at a voting place when needed and disassemble thereafter for transportation and storage. The portable voting booth includes a base portion and a plurality of legs for assembly to the base portion in order to support the base portion in an elevated position on a horizontal support surface. A user assembles the legs onto the base portion as a step in erecting the portable voting booth.
The base portion defines a plurality of leg-receiving bores (i.e., sockets) for receiving the plurality of legs, including at least a first leg-receiving bore. The base portion also includes first leg-gripping means within the first leg-receiving bore for gripping a first end portion of a first leg of the plurality of legs. That is done in order to thereby restrain the first leg from falling out of the first leg-receiving bore under influence of gravity. Preferably, the plurality of legs includes four legs, the base portion includes four leg-receiving bores, and four leg-gripping means are provided, one within each of the four leg-receiving bores.
More specifically, with reference to just a first one of the legs, it has a first end portion that is tubularly shaped with a hollow interior defined by a radially inwardly facing inner wall of the first end portion. The base portion includes a first one of the leg-receiving bores defined by a first bore-defining wall of the base portion, and a first one of the leg-gripping means includes at least a first resiliently deformable member located within the first bore. The first resiliently deformable member is adapted to resiliently deform and move radially away from the first bore-defining wall under force from the first end portion of the first leg when the first end portion is inserted axially into the first bore in order to thereby fit into the hollow interior of the first end portion as the first end portion is advance further into the first bore. The first resiliently deformable member bears radially outward against the radially inwardly facing inner wall of the first end portion of the first leg in order to thereby restrain the first leg from falling out of the first bore under influence of gravity.
Preferably, the first leg-gripping means includes four resiliently deformable, axially extending members located within the first bore in circumferentially spaced-apart positions. Preferably, the first end portion of the first leg and the inwardly facing wall that defines the first bore are cylindrically shaped. In one form of the invention, the base portion includes a blow-molded portion and four injection-molded, bore-defining components held by the blow-molded portion. In that case, each bore-defining component includes a rigid body of material having a bore-defining wall that defines a leg-receiving bore (i.e., a socket) extending along a bore axis from an open end of the bore to a closed end of the bore. The bore-defining components include leg-gripping means within the leg-receiving bores so defined.
Thus, the invention provides a portable voting booth having one or more leg-gripping components within each downwardly opening leg-receiving bore. Leg-gripping components resiliently deform radially in order to slide into the ends of the tubular legs as the legs are inserted into the leg-receiving bores, bearing radially outward against the radially inwardly facing inner walls of the end portions of the legs to thereby hold the legs in place, with no screws, clips, or other fasteners being required. The following illustrative drawings and detailed description make the foregoing and other objects, features, and advantages of the invention more apparent.
a and 3b of the drawings are enlarged cross-sectional views of part of the base portion of the prior art portable voting booth, as viewed in a vertical plane containing a line 3-3 in
a and 4b are enlarged cross-sectional views, similar to
A worker erects the portable voting booth 10 to the open configuration by assembling four multi-section legs 15, 16, 17, and 18 onto the base portion 12 of the enclosure 11. First and second leg sections 15A and 15B of the first leg 15 (
a and 3b are cross sections of the base portion 12 as viewed in a vertical plane containing a line 3-3 in
Turning now to
The four leg structures of the voting booth 30 include four bore-defining portions of the base portion 31 that receive the four legs and hold them in place. The four leg structures are similar and so only a first one of the four is described in further detail. As shown in
For the illustrated voting booth 30, the base portion 31 includes four bore-defining components similar to a first bore-defining component 36 in
The first bore-defining component 36 includes a cylindrically shaped, bore-defining wall 37, and it is that bore-defining wall 37 that defines the first bore 33. More specifically, the component 36 is a rigid body of material having a bore-defining wall 37 that defines the leg-receiving bore 33 extending along a bore axis from an open end of the bore to a closed end of the bore, said leg-receiving bore being adapted to receive a tubular end portion of a voting booth leg. Erection of the voting booth 30 includes inserting a first end portion 38 of a first leg 39 into the first bore 33, as indicated by an arrow 40 in
The first bore-defining component 36 is composed of an injected molded plastic material and it includes annular ribs 36A and 36B that the blow-molded portion 31A of the base portion 31 grips. In terms of size, the first bore-defining component 36 is about two inches long measured along the first bore axis 34, while the first finger 41A is about one-half inch long measured parallel to the first bore axis. The illustrated first bore 33 has a diameter of about 1.05 inches so that the one-inch outside diameter of the first end portion 38 of the leg 39 fits easily into the first bore 33. In addition, the first finger 41A is spaced apart from the bore-defining wall 37 by an amount less than the wall thickness of the tubular end portion 38 (e.g., less than about 0.0625 inches for the illustrated leg 39).
When the first end portion 38 of the first leg 39 is moved axially into the first bore 33 (as indicated by an arrow 43 in
Now consider
Unlike the base portion 31 of the portable voting booth 30, the base portion 51 of the second embodiment 50 does not include a bore-defining component similar to the first bore-defining component 36 (i.e., one that includes the leg-gripping component 52.) Instead, the first leg-gripping component 52 is molded with the base portion 51 as an integral part of the base portion 51. Doing so foregoes the benefits of a blow-molded portion of the base portion that holds injection-molded socket members (e.g., the first bore-defining component 36), but it is another way of constructing a portable voting booth according to the broader inventive concepts of the invention.
Thus, the invention provides a portable voting booth having one or more leg-gripping components within each of multiple downwardly opening leg-receiving bores. The leg-gripping components resiliently deform radially in order to slide into the ends of the tubular legs as the legs are inserted into the leg-receiving bores, bearing radially outward against the end portions of the legs in order to thereby hold the legs in place, with no screws, clips, or other fasteners being required. Although exemplary embodiments have been shown and described, one of ordinary skill in the art may make many changes, modifications, and substitutions without necessarily departing from the spirit and scope of the invention. One of ordinary skill in the art can readily apply the invention to any table or bench that has a base component and tubular legs that can be assembled in the manner of the voting booth herein described; as used herein, the word “table” includes benches and table-like and bench-like structures having a base component supported by multiple legs. As for the specific terminology used to describe the exemplary embodiments, it is not intended to limit the invention; each specific term is intended to include all technical equivalents that operate in a similar manner to accomplish a similar purpose or function. “Downwardly opening” bores, for example, means that the bores open downwardly when the base portion is spatially oriented so that the upwardly facing surface on the base portion is horizontally disposed and facing upwardly away from the floor or other horizontal support surface.
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Number | Date | Country |
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2190282 | Nov 1987 | GB |