The present invention relates to the technical sector concerning foldable tables. In particular, the present invention relates to a foldable and elongatable table.
Use of a foldable table is known, comprising: a rest plane; a first pair of legs arranged at a first side of the rest plane; a second pair of legs that is arranged at a second side of the rest plane, which second side is opposite and parallel to the first side.
The first pair of legs comprises a first leg and a second leg which are rotatably coupled to one another at a relative first intermediate point so as to rotate with respect to one another in a first plane that is transversal to the rest plane and the first leg is rotatably coupled to the rest plane so as to rotate with respect thereto. Further, the second pair of legs comprises a third leg and a fourth leg which are rotatably coupled to one another at a relative second intermediate point so as to rotate with respect to one another in a second plane that is transversal to the rest plane and the third leg is rotatably coupled to the rest plane so as to rotate with respect thereto.
In detail, the known foldable table can assume:
a folded configuration in which the first leg and the third leg are arranged with respect to the rest plane in such a way that the relative free end is near to the rest plane and the first leg, the second leg, the third leg and the fourth leg are arranged in such a way as to be flanked to one another;
an extended configuration in which the first leg and the third leg are arranged with respect to the rest plane in such a way that the relative free end is moved away from the rest plane and the first leg, the second leg, the third leg and the fourth leg are arranged in such a way that the first pair of legs and the second pair of legs delineate, respectively, a cross.
This type of foldable table is of a size to be able to set two places on the rest plane and therefore seat two people at the foldable table.
This type of foldable table is particularly used in hotel or restaurant establishments, as a large number of the foldable tables can be stored in their folded condition in stores having only small spaces available, in particular in closed periods, or if the foldable tables are used outdoors, on days where the weather is not sunny.
However, in particular in hotel or restaurant establishments, there is often a need to be able to set more than two places on the rest plane, as a larger number of customers might wish to be seated at a same foldable table.
Consequently, with the aim of seating more people about a table of this type, more than one table would have to be arranged, in the relative extended configuration, one by the side of another.
Therefore, the hotel or restaurant establishments must have a plurality of foldable tables of the above-described type available.
Further, the fact of having to provide a further table and arrange it by the side of another table leads to inconvenience not only for the customer but also for the waiter who will have to perform the task.
In the light of the above, the aim of the present invention consists in obviating the above-mentioned drawback.
The above aim is attained by a foldable and elongatable table according to claim 1.
The rotation coupling of a leg with respect to the other of the first pair of legs, of the second pair of legs and of the third pair of legs and, further, the rotation coupling of the first leg and the third leg with respect to the rest plane, together with the first telescopic connection and the second telescopic connection, advantageously enable the foldable and elongatable table to assume the folded configuration, the extended configuration and the elongated configuration.
The rotation coupling enables the rotation of the legs of the first pair of legs, of the second pair of legs and third pair of legs so that they can be arranged to assume the folded configuration, with the purpose of being able to store, in the warehouse, the foldable and elongatable table, and to assume the extended configuration with the purpose of being able to use the foldable and elongatable table.
At the same time, the first telescopic connection and the second telescopic connection enable moving the fifth leg with respect to the first leg and the sixth leg with respect to the second leg so that the third pair of legs is movable between a first position proximal to the second pair of legs and a second position distal to the second pair of legs.
Consequently it is possible to arrange the foldable and elongatable table in the elongated configuration, should it be desired to increase the relative extension of the rest plane: in fact, it is possible to arrange a supplementary portion of the rest plane resting on the free end of the fifth leg and the sixth leg and the third pair of legs is in the second position.
Specific embodiments of the invention will be described in the following part of the present description, according to what is set down in the claims and with the aid of the accompanying tables of drawings, in which:
With reference to the appended tables of drawings, reference numeral (1) denotes in its entirety a foldable and elongatable table comprising: a rest plane (2); a first pair of legs (3) that is arranged at a first side (2a) of the rest plane (2); the first pair of legs (3) comprising a first leg (3a) and a second leg (3b) which are rotatably coupled to one another at a relative first intermediate point (P1) so as to rotate with respect to one another in a first plane (XY1) that is transversal to the rest plane (2); the first leg (3a) being rotatably coupled to the rest plane (2) so as to rotate with respect thereto (see
Further, the foldable and elongatable table (1) comprises: a second pair of legs (4) that is arranged at a second side (2b) of the rest plane (2), which second side (2b) is opposite and parallel to the first side (2a); the second pair of legs (4) comprises a third leg (4a) and a fourth leg (4b) which are rotatably coupled to one another at a relative second intermediate point (P2) so as to rotate with respect to one another in a second plane (XY2) that is transversal to the rest plane (2); the third leg (4a) being rotatably coupled to the rest plane (2) so as to rotate with respect thereto (see
Further, the foldable and elongatable table (1) comprises:
a third pair of legs (5) that is arranged at the second side (2b) of the rest plane (2);
the third pair of legs (5) comprises a fifth leg (5a) and a sixth leg (5) which are rotatably coupled to one another at a relative third intermediate point (P3) so as to rotate with respect to one another in a third plane (XY3) that is transversal to the rest plane (2) (see
a first telescopic connection (6) which: comprises a first rod (6a) and a first tubular element (6b) inside which the first rod (6a) is slidable; crosses the first through-hole (40a); connects the fifth leg (5a) with the first leg (3a) in order to enable the fifth leg (5a) to move with respect to the first leg (3a);
a second telescopic connection (7) which: comprises a second rod (7a) and a second tubular element (7b) inside which the second rod (7a) is slidable; crosses the second through-hole (40b); connects the sixth leg (5b) with the second leg (3b) in order to enable the sixth leg (5b) to move with respect to the second leg (3b) (see
The third pair of legs (5) is movable, by means of the first telescopic connection (6) and the second telescopic connection (7), between a first position (P), in which it is proximal to the second pair of legs (4), and a second position (D), in which it is distal to the second pair of legs (4) (see
The foldable and elongatable table (1) is configured and predisposed so as to assume:
the third pair of legs (5) is in the first position (P);
the first leg (3a) and the third leg (4a) are arranged with respect to the rest plane (2) so that the relative free end is near the rest plane (2);
the first leg (3a) and the second leg (3b), the third leg (4a) and the fourth leg (4b) and the fifth leg (5a) and the sixth leg (5) are arranged in such a way as to be flanked to one another (see
the third pair of legs (5) is in the first position (P);
the first leg (3a) and the third leg (4a) are arranged with respect to the rest plane (2) in such a way that the relative free end is distant from the rest plane (2);
the first leg (3a) and the second leg (3b), the third leg (4a) and the fourth leg (4b) and the fifth leg (5a) and the sixth leg (5b) are arranged in such a way that the first pair of legs (3), the second pair of legs (4) and the third pair of legs (5) respectively delineate a cross (see
the third pair of legs (5) is in the second position (D);
the first leg (3a) and the third leg (4a) are arranged with respect to the rest plane (2) in such a way that the relative free end is distant from the rest plane (2);
the first leg (3a) and the second leg (3b), the third leg (4a) and the fourth leg (4b) and the fifth leg (5a) and the sixth leg (5b) are arranged in such a way that the first pair of legs (3), the second pair of legs (4) and the third pair of legs (5) respectively delineate a cross (see
The first leg (3a) can be understood to be a single element or as a plurality of elements arranged flanked to one another and fixed longitudinally to one another (not illustrated).
Like considerations can be made for the second leg (3b), the third leg (4a) and the fourth leg (4b) and the fifth leg (5a) and the sixth leg (5b).
The first leg (3a) and the second leg (3b) are hinged to one another at the relative first intermediate point (P1) (see
The first plane (XY1) can be perpendicular to the rest plane (2).
The first leg (3a) can be perpendicular to the rest plane (2).
The first leg (3a) can rotate with respect to the rest plane (2) in the first plane (XY1).
The second leg (3b) can rotate with respect to the first leg (3a) in the first plane (XY1).
The third leg (4a) and the fourth leg (4b) are hinged to one another at the relative second intermediate point (P2) (see
The second plane (XY2) can be perpendicular to the rest plane (2).
The third leg (4a) can be hinged to the rest plane (2).
The third leg (4a) can rotate with respect to the rest plane (2) in the second plane (XY2).
The fourth leg (4b) can rotate with respect to the third leg (4a) in the first plane (XY1).
The fifth leg (5a) and the sixth leg (5b) are hinged to one another at the relative third intermediate point (P3) (see
The third plane (XY3) can be perpendicular to the rest plane (2).
The fifth leg (5a) and the sixth leg (5b) are hinged to one another at the relative third plane (XY3).
The first rod (6a) can slide telescopically with respect to the first tubular element (6b) via the first through-hole (40a) (see
The first telescopic connection (6) can connect the fifth leg (5a), the third leg (4a) and the first leg (3a) to one another (see
In this way, when the first leg (3a) is rotated with respect to the rest plane (2) a rotation is obtained with respect to the rest plane (2), of the third leg (4a) in the second plane (XY2) and of the fifth leg (5a) in the third plane (XY3).
The second rod (7a) can slide telescopically with respect to the second tubular element (7b) via the second through-hole (40b) (see
The second telescopic connection (7) can connect the sixth leg (5b), the fourth leg (4b) and the second leg (3b) to one another (see
In this way, when the second leg (3b) is rotated with respect to the first leg (3a) a rotation of the fourth leg (4b) with respect to the third leg (4a) in the second plane (XY2) is obtained as well as of the sixth leg (5b) with respect to the fifth leg (5a) in the third plane (XY3).
The third pair of legs (5) can be movable in a plane that is parallel to the rest plane (2).
In detail, with particular reference to
Further, the first leg (3a) is rotated with respect to the second leg (3b) so that the first leg (3a) and the second leg (3b) are flanked to one another; the third leg (4a) is rotated with respect to the fourth leg (4b) so that the third leg (4a) and the fourth leg (4b) are flanked to one another; the fifth leg (5a) is rotated with respect to the sixth leg (5b) so that the fifth leg (5a) and the sixth leg (5b) are flanked to one another.
In detail, with particular reference to
Further: the first leg (3a) is rotated with respect to the second leg (3b) so that the first pair of legs (3) delineates a cross; the third leg (4a) is rotated with respect to the fourth leg (4b) so that the second pair of legs (4) delineates a cross; the fifth leg (5a) is rotated with respect to the sixth leg (5b) so that the third pair of legs (5) delineates a cross.
In detail, with particular reference to
Further: the first leg (3a) is rotated with respect to the second leg (3b) so that the first pair of legs (3) delineates a cross; the third leg (4a) is rotated with respect to the fourth leg (4b) so that the second pair of legs (4) delineates a cross; the fifth leg (5a) is rotated with respect to the sixth leg (5b) so that the third pair of legs (5) delineates a cross.
The first tubular element (6b) preferably connects the first leg (3a) and the third leg (4a) to one another; the first rod (6a) extends starting from the fifth leg (5a) towards inside the first tubular element (6b) in such a way as to slide in the first tubular element (6b). The second tubular element (7b) connects the second leg (3b) and the fourth leg (4b) to one another and the second rod (7a) extends starting from the sixth leg (5b) towards the inside of the second tubular element (7b) so as to slide in the second tubular element (7b) (see
The passage from the folded configuration (A) to the extended configuration (B) is advantageously simple and rapid as it will be sufficient to move the first leg (3a) and the second leg (3b) so that there is also rotation, respectively, of the third leg (4a) with respect to the rest plane (2), the fourth leg (4b) with respect to the third leg (4a) and the fifth leg (5a) with respect to the sixth leg (5b).
Further, the foldable and elongatable table (1) in the relative extended configuration (B) and elongated configuration (C) will be stable due to the first tubular element (6a), to the first rod (6a), the second tubular element (7b) and the second rod (7a), which give greater rigidity to the structure.
The first tubular element (6b) and the first rod (6a) can have a circular transversal section and a greater extension along a relative main extension axis (see
When inside the first tubular element (6b), the first rod (6a) can connect the first leg (3a) and the fifth leg (5a) to one another.
The first tubular element (6b) can have a full portion.
The first rod (6a) can insert internally of the first tubular element (6b) via the first through-hole (40a).
The second tubular element (7b) and the second rod (7a) can have a circular transversal section and a greater extension along a relative main extension axis (see
When inside the second tubular element (7b), the second rod (7b) can connect the second leg (3b) and the sixth leg (5b) to one another.
The second tubular element (7b) can have a full portion.
The second rod (7a) can insert internally of the second tubular element (7b) via the second through-hole (40b).
A free end of the first leg (3a), of the second leg (3b), of the third leg (4a), of the fourth leg (4b), of the fifth leg (5a) and of the sixth leg (5b) preferably respectively comprise a foot (8, 9, 10, 11, 12, 13) for stably resting on a floor or a ground surface when the foldable and elongatable table (1) assumes the extended configuration (B) or the elongated configuration (C) (see
The foldable and elongatable table (1) advantageously in the relative extended configuration (B) or in the elongated configuration (C), will rest stably on the feet (8, 9, 10, 11, 12, 13) on a floor or a ground surface.
A free end of the second leg (3b), of the fourth leg (4b), of the fifth leg (5a) and of the sixth leg (5b) preferably comprise, respectively, an abutment plate (14, 15, 16, 17) for abutting the rest plane (2) when the foldable and elongatable table (1) assumes the extended configuration (B) (see
The rest plane (2) will advantageously rest stably on the abutment plate (14, 15, 16, 17) of, respectively, the second leg (3b), the fourth leg (4b), the fifth leg (5a) and the sixth leg (5b), when the foldable and elongatable table (1) assumes the relative extended configuration (B).
In this way, the foldable and elongatable table (1) is certain to be stable in the relative extended configuration (B).
Each abutment plate (14, 15, 16, 17) can contact the rest plane (2).
The rest plane (2) preferably comprises a main portion (18) and a supplementary portion (19) which is hinged to the main portion (18) so as to rotate with respect thereto (see
The supplementary portion (19) is advantageously hinged to the main portion (18) so that there is a book-rotation between the two portions.
In this way, it will be simple to arrange the supplementary portion (19) at the third pair of legs (5) in the relative second position (D) and arrange the foldable and elongatable table (1) in the relative elongated configuration (C).
The supplementary portion (19) can contact the abutment plate (16, 17) of the fifth leg (5a) and of the sixth leg (5b), when the supplementary portion is rotated with respect to the main portion (18) towards the third pair of legs (5) and the foldable and elongatable table (1) is in the elongated configuration (C) (see
A free end of the fifth leg (5a) and of the sixth leg (5b) preferably comprise, respectively, an abutment plate (16, 17) provided with fixing means (16a, 17a) in order to abut the supplementary portion (19) and in order to be fixed thereto by fixing means (16a, 17a) (see
When the foldable and elongatable table (1) is in the relative extended configuration (B), translation or sliding movements of the supplementary portion (19) with respect to the third pair of legs (5) are advantageously prevented.
Consequently movements of translation or sliding of the supplementary portion (19) with respect to the main portion (18) are prevented.
When the foldable and elongatable table (1) is in the elongated configuration (C), the abutment plate (16, 17) of the fifth leg (5a) and the sixth leg (5b) can contact the supplementary portion (19).
The supplementary portion (19) can be provided with a plurality of through-holes (20) arranged in such a way that in the elongated configuration (C), they are at the abutment plate (16, 17) of the fifth leg (5a) and the sixth leg (5b).
The fixing means (16a, 17a) can comprise a plurality of screws.
The screws can be conformed to be inserted in the relative through-hole of the plurality of through-holes (20) to fix each abutment plate (16, 17) to the supplementary portion (19) (see
The foldable and elongatable table (1) preferably comprises a frame (21) in turn comprising: a first guide rail (22) having a first extension direction; a first carriage (23) which bears the main portion (18) and which is slidable along the first guide rail (22); and wherein the supplementary portion (19) is hinged to the main portion (18) along an extension direction that is transversal to the first extension direction of the first guide rail (22) (see
The passage from the extended configuration (B) to the elongated configuration (C) will advantageously be simple and rapid as it will be sufficient to slide the first carriage (23) along the first guide rail (22) so that the main portion (18) moves away from the third pair of legs (5).
At this point, the supplementary portion (19) will be rotated with respect to the main portion (18) so that it can abut the abutment plate (16, 17) of the fifth leg (5a) and the sixth leg (5b).
When the foldable and elongatable table (1) assumes the extended configuration (B), it will have a main extension axis which is parallel to the first extension direction of the first guide rail (22).
With particular reference to
The second guide rail (24) can have the same first extension direction as the first guide rail (22).
The first guide rail (22) preferably comprises a first endrun stop (22a) and a second endrun stop (22b), which is arranged facing the first endrun stop (22a), so that the first carriage (23) can slide along the first guide rail (22) from the first endrun stop (22a) to the second endrun stop (22b) and vice versa.
When the foldable and elongatable table (1) is advantageously in the relative elongated configuration (C), movements of translation or sliding along the first extension direction are advantageously prevented, in both one direction and the opposite direction, by effect of the stopping action of the second endrun stop (22b) and the abutment plates (16, 17) provided with fixing means (16a, 17a) at the fifth leg (5a) and the sixth leg (5b).
The second guide rail (24) can comprise a first endrun stop (24a) and a second endrun stop (24b), which is arranged facing the first endrun stop (24a), so that the second carriage (25) can slide along the second guide rail (24) from the first endrun stop (24a) to the second endrun stop (24b) and vice versa.
The first guide rail (22) can be interposed between the first pair of legs (3) and the second pair of legs (4) (see
The second guide rail (24) can be interposed between the first pair of legs (3) and the second pair of legs (4) (see
The first tubular element (6b) and first rod (6a) can be arranged in proximity of the free end of the first leg (3a) (see
The second tubular element (7b) and the second rod (7a) can be arranged in proximity of the free end comprising the foot (9) of the second leg (3b) (see
Further, the third leg (4a) can comprise a third through-hole (40c) and the foldable and elongatable table (1) can comprise a third telescopic connection (26) which: comprises a third rod (26a) and a third tubular element (26b) inside which the third rod (26a) is slidable; crosses the third through-hole (40c); connects the fifth leg (5a) with the first leg (3a) in order to enable the fifth leg (5a) to move with respect to the first leg (3a).
The third tubular element (26b) and third rod (26a) can be arranged interposed between the rest plane (2) and the first tubular element (6b) and the first rod (6a) (see
Further, the fourth leg (4b) can comprise a fourth through-hole (40d) and the foldable and elongatable table (1) can comprise a third telescopic connection (27) which: comprises a fourth rod (27a) and a fourth tubular element (27b) inside which the fourth rod (27a) is slidable; crosses the fourth through-hole (40d); connects the sixth leg (5b) with the second leg (3b) in order to enable the sixth leg (5b) to move with respect to the second leg (3b) (see
The fourth tubular element (27b) and fourth rod (27a) can be arranged interposed between the rest plane (2) and the second tubular element (7b) and the second rod (7a) (see
The main portion (18) of the rest plane (2) can comprise an upper surface (18a) and a lower surface (18b) (see
The first guide rail (22) can be arranged at the lower surface (18b) (see
The second guide rail (24) can be arranged at the lower surface (18b) (see
The frame (21) can comprise a pair of bars (28) which extend transversally to the first guide rail (22).
The first leg (3a) can be hinged to a bar of the pair of bars (28) so that it rotates with respect to the rest plane (2) (see
The third leg (4a) can be hinged to the to a bar of the pair of bars (28) so that it rotates with respect to the rest plane (2) (see
The pair of bars (28) can be arranged at the lower surface (18b).
Each bar of the pair of bars (28) is conformed so as to be able to receive the abutment plate (13, 15) of the free end of the second leg (3b) and the fourth leg (4b) (see
The first leg (3a) and the third leg (4a) can be hinged to a bar of the pair of bars (28).
The rest plane (2) can be made of wood or plastic.
The rest plane (2) can comprise a plurality of longitudinal elements (29) which are arranged flanked to one another.
The frame (21) can be made of metal.
The first pair of legs (3), the second pair of legs (4) and the third pair of legs (5) can be made of metal.
The first tubular element (6b), the second tubular element (7b), the first rod (6a) and the second rod (7a) can have the main extension axis thereof parallel to the first extension direction of the first guide rail (22).
The first tubular element (6b), the second tubular element (7b), the first rod (6a) and the second rod (7a) can be made of metal.
The following is a description of how the passage is made from the folded configuration (A) to the extended configuration (B) and, subsequently, to the elongated configuration (C).
Initially, the first leg (3a) and the third leg (4a) are rotated with respect to the bars of the pair of bars (28) so as to move the relative free end comprising the foot (8,10) away from the rest plane (2) in order to position the free end on a floor or a ground surface (see
Number | Date | Country | Kind |
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102020000012838 | May 2020 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2021/054626 | 5/27/2021 | WO |