This invention deals with an articulated arm for an awning that comprises an arm and a forearm that are mutually articulated by respective articulation configurations located at adjacent ends of the same, and pushed towards an open position by a flexible pulling elements that is linked to an elastic element housed inside the arm and linked to the cite articulation. The mentioned articulation configurations are designed so that the pulling element is completely out of sight and protected in any arm position.
A general configuration is known for articulated arms for awnings that has become classic and according to which, the arm comprises an arm and forearm consisting of first and second tubular elements with parts at their ends connected to a plug defined by articulation configurations. The arm and forearm are connected together by an articulation consisting of two of the said adjacent articulation configurations. The articulation configuration joined to the arm includes a fork consisting of a pair of facing lugs containing coaxial holes, whereas the articulation configuration joined to the forearm defines a core with an axial hole aligned with the cited coaxial holes of the lugs for the insertion of an articulation pin. Within the first profile, which forms the arm body, there is a traction spring joined at one end to a fixed point on the first tubular profile and, by a second end to a flexible pulling element, which is, in turn, fixed to a point on the said core in the forearm articulation configuration and the said flexible pulling elements is supported on a surface of the core that is located away from the articulation's rotation shaft in order to create, in virtue of the tension exerted by the traction spring, a torque that will tend to maintain the arm and forearm in an open position.
In conventional designs, the cited flexible pulling element consists of one or more transmission chains, or one or more thick twisted cables, a portion of which is inevitable exposed and visible within the articulation zone. This exposure of the chain or cable involves the risk of dirt accumulating in the articulation zone and moreover, produces an anti-aesthetic effect in a product that is destined to be permanently in view of the public.
The application for international patent WO 98/01638 belonging to the current applicant makes known an articulated arm for the support of awnings that includes a series of improvements in the articulation configuration and where the mentioned flexible pulling element consists of a flat belt interiorly fitted with metal reinforcement filaments. This belt includes terminals at its two ends for joining the belt to the traction spring and the core respectively. The said terminals are shaped using casting technology and are joined to the said metal filaments, which project from the ends of the belt, during the casting process. In addition to greatly facilitating the assembly of the awning arm, this flat belt permits a more compact articulation design and can be made from plastic in the same colour as the rest of the arm so that it provides a sufficiently aesthetic appearance and can remain partially in view without any additional trim pieces being required.
Utility model ES-A-1052733 describes a model for an awning arm of this type in which the pulling element consists of a pair of thick twisted cables and where a curved top is employed to cover the sides of these twisted cables in an articulation zone. One inconvenience of such a design is that the thick cables produce an excessively wide articulation and the mentioned top is another part which adds to the complexity to the articulation and increases its cost.
One objective of this invention is that of providing an awning articulated arm in which the articulation between arm and forearm forms a compact, closed assembly, where the flexible pulling element is completely hidden from sight and protected by the articulation's own configurations.
The previous and other objectives are achieved in accordance with this invention by inverting the layout of the articulation configuration between the arm and forearm. Thus, in the articulated arm of this invention, the articulation configuration of the end of the forearm consists of a core with an exterior surface around a transversal shaft in the longitudinal direction of the forearm and the articulation configuration of the arm end consists of a wall surrounding the said core. Between the cited core and the said surrounding wall are included some means of bearings that guide rotation between both and provide support for the forearm on the arm.
The flexible pulling element in this case has the form of a flat belt as that described in the cited patent application WO 98/01638 and is terminated at the end closest to the articulation by a thickened configuration, which is fixed into the corresponding housing formed on the said exterior surface of the core. The surrounding wall has an interior surface that is separated from the core so that between both, there is a defined ring-shaped space that is sufficiently large to hold a portion of the flat belt supported on the core. The articulation configuration of the end of the arm includes a connection between the said ring-shaped space and an interior cavity in the arm for the said flexible pulling element.
The mentioned means of bearings include, according to a production example, at least one pair of first conical surfaces located close to, or on, the ends of the core and at least one pair of second conical surfaces that are combined with the first and designed to slide over them, located on, or close to, the entrances to an interior cavity defined by the surrounding wall. The articulation configurations may be produced by moulding a light metal alloy, such as an aluminium alloy, and at least one of the said first or second conical surfaces of each pair in contact with a material with low coefficient of friction in order to facilitate its sliding movement in contact with the other of the first or second conical surfaces of each pair in contact. The conical surfaces can be incorporated into some respective ring-shaped pieces of synthetic plastic material on the core or the surrounding wall, or may be respectively shaped onto the surrounding wall and core, in this case consisting of at least one of the first and/or second conical surfaces of each pair in contact with an anti-friction treatment of a coating of a material having a low coefficient of friction in order to prevent aluminium coming into contact with aluminium.
According to a production example, the articulation of the end of the forearm comprises a fork defined by first and second lateral supports that are facing each other, and between which the core is housed and fixed in place by means of at least one securing element axially inserted through at least one opening in at least one of the said first and second lateral supports. The core is inserted between the fork supports in a radial direction once the surrounding wall is mounted around the core so that when the core is then fitted to the fork, the wall surrounding the core becomes trapped by contact with between the first conical surfaces and the second conical surfaces.
According to another production example, the articulation configuration of the end of the forearm consists of a single lateral support from which the core projects, together with an end piece joined to the free and of the core by means of at least one securing element. One of the said first conical surfaces is located at the base of the core whereas the other of the said conical surfaces is incorporated into the base of the cited end piece. Here, the surrounding wall is arranged around the core in an axial direction, so that, when the end piece is then secured to the core, the surrounding wall is trapped between both first conical surfaces and with the second conical surfaces in contact with them.
In both production examples, the surrounding wall adapts at its ends to the supports formed by the fork or to the projecting core support and the end piece so that a closed housing is produced for the flexible pulling element and for the means of articulation bearings, which results in a more protected, safer articulation with a more aesthetic appearance.
In order to limit the rotation angle of the forearm in relation to the arm, the articulation comprises at least one pair of stops located on an interior surface of the surrounding wall in positions adapted to interfere with a protuberance on the exterior core surface during rotation of the forearm with respect to the arm. Obviously, the pair of stops could be on the said exterior core surface and the protuberance on the said interior surface of the surrounding wall with the same results. In this way, the rotation limiting device will also be hidden from view inside the articulation configuration.
The previous and other advantages and characteristics will become more evident with the following detailed description of some production examples with reference to the accompanying drawings, in which:
First referring to
The characteristic part of the articulated arm in this invention lies in the construction of the said mutual articulated joint between the arm 1 and forearm 2. In the production arm shown in FIGS. 1 to 3, the articulation configuration 5 of the first end 2a of forearm 2, which consists of the opposite of articulated arms for awnings under the current state of the technique, a core 8 that has an exterior surface around an shaft 9 that is transversal to the longitudinal direction of the forearm, while the articulation configuration 4 of the second end 1b of the arm 1 consists of a surrounding wall 10 placed around the said core 8. Between the core 8 and the cited surrounding wall 10 are incorporated some means of bearings 11a, 11b, 12a and 12b that are coaxial with the said shaft 9 for guiding the relative rotation between both and to provide support for the forearm 2 on the arm 1.
As can be better seen in
Referring now to
In the production example shown in FIGS. 1 to 3, the articulation configuration 5 of the first end 2a of forearm 2 consists of a fork defined by first and second lateral supports 17, 18, facing each other, and including respective aligned holes 17a, 18a and the core 8 includes a central hole 8a in an axial direction. The core 8 is located between the said first and second lateral supports 17, 18, which is fixed in place by a securing pin19 that is axially inserted through holes 17a and 18a of the first and second supports 17 and 18 and the central hole 8a of core 8. In this case, the assembly of the pulling element 7 and the surrounding wall 10 around the core 8 is carried out before inserting the core 8 between the fork supports 17, 18, in a radial direction. When the core 8 is then secured to the fork supports 17, 18, the surrounding wall 10 around the core 8 becomes trapped by the contact of both first conical surfaces 11a, 11b, with the corresponding second conical surfaces 12a, 12b. These are fitted with the means of retaining the pin 19 within the said housing against any movement in an axial direction.
In the example illustrated in
With the awning articulated arm of this invention as described above, an articulation between the arm and forearm is obtained that is both compact and closed, where the flexible pulling elements if completely hidden from view and protected by the actual configurations that form the articulation.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/ES03/00404 | 8/1/2003 | WO | 9/14/2005 |