GB2579553A

GB2579553A - Adjustable roofing system

Info

Publication number: GB2579553A
Application number: GB1819651.9A
Authority: GB
Inventors: Poggi Roberto
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-12-02
Filing date: 2018-12-02
Publication date: 2020-07-01
Also published as: GB201819651D0

Abstract

A multilayer steel and wood main ridge beam A for an adjustable roofing system that has a modular spherical joint bracket B. The multilayer main ridge beam may consist of two or more layers of wood and steel plates to create a single laminate body that is fixed together by screws or glue. An anchor system C may be attached to the spherical joint bracket by a spherical pin 3B that inserts into spherical hole 2B. There may be slotted holes in the anchor system that secures any secondary beam structure such as rafters.

Description

ADJUSTABLE ROOFING SYSTEM

This patent is designed to facilitate the built of roofs or roofing in general, being able to solve, in a simple and fast way, the joint of the secondary structure to the main ridge beam, maintaining the beauty of the wood and at the same time the mechanical characteristics of the steel.

It consists of a system composed of a Main Ridge Beam made of multilayer wood-steel and a particular Modular and Adjustable Spherical Joint Bracket, which aims to ensure the joint between the Main Ridge Beam to the Secondary Structure, in every direction.

Description

The object of the present invention is a particular system realized by a Main Ridge Beam made from materials which are steel and wood layers and a Modular Spherical Jointed Bracket, that will serve for joining the main beam to the Secondary Frame.

This Modular Spherical Joint Bracket make sure that the Secondary Beam to which it is connected by support, can move freely both transversely and longitudinally directions, also as to be able to adapt for any construction requirements.

The Main Ridge Beam is made by the union of several layers steel and wood, thus preserving the beauty of the wood, resulting, however, (at the same size of a beam made only of wood) more robust to all kinds of stresses and avoiding any bending that will evidenced due to the intrinsic deformability of the wood during the time.

The Modular Spherical Joint Bracket will ensure less pressure on the peripheral stringing, cause the forces present, due to the statics loads will oppose at the same time balanced though the Modular Spherical Joint Bracket.

The invention will now be describe solely by using example and boards references to the accompanying drawings in which: A) The Main Ridge Beam ( Boards 1/6-2/6) B) The Modular Spherical Joint Bracket (Boards 1/6-3/6-4/6-5/6) C) Anchor system (Board 6/6) The invention will now describe and listed: * The Main Ridge Beam (1a, 2a, 3a) realized by multilayer steel-wood: la) Lateral beam, 2a) Still flat, 3a) Central Beam.

On one side of the Wood Beam ( Board 2/6 section YY), obtain by an incision where are positioned and screwed flats steel, all the system is blocked by using special glue; However we would like under light the importance of the modular bracket system as major security features.

* Modular Spherical Joint Bracket (1b,2b,3b,4b,5b) * 2b) Bracket lid (Board 4/6 section XX) made of final cylindrical flanged part and on the spherical top filled with hole. In the flanged part are realized slotted holes for any future adjustment (Board 3/6 details 4b, 5b).

* 3b) Spherical pin (Board 4/6 section YY) use to connected the Modular Spherical Joint Bracket to the Anchor System Board 6/6).

* 4b) The modular spherical joint bracket (Board 5\6) characterized by a round steel body section; the first extremity is flanged with threaded holes to allow the union of the lid ( 2b Board 4/6), on the second one a female threaded hole is obtained ( Board 5/6 section XX).

* 5b) The Modular Spherical Joint Bracket ( Board 5\6) is characterized by a round steel body section, the first extremity is flanged with threaded holes to allow the union of the lid ( 2b board 4/6) , on the second one a threaded pin is obtained ( board 5/6 section YY).

C) Anchor System (Board 6/6) The Anchor System characterized by drawn steel U section thus makes sure the union between the Modular Spherical Joint Bracket to the secondary beam.

How the invention does it works This modular system in steel-wood for roofs, comprehend also swivel and modular bracket with a spherical joint and a multilayer beam wood-steel that allows assembly to any secondary structure of the warp and it is possible to modify both the pitches of the beams and the inclination of the pitches as well.

The assembly for Modular Spherical Joint Bracket on the multilayer Ridge Beam is extremely simple. Once tightened the Modular Spherical Joint Bracket (Boardl/6 detail B) at the Main Ridge Beam for deck of anchor supports (Board 3/6 details 4b,5b) using the holes that are on the Main Ridge Beam; First Steep will proceed to assembly the tilting spherical pin ( 3b) and the relative bracket lid ( 2b).On the treated pin will join the anchor system (Board 6/6 detail C) the Secondary Beam.

The tilting spherical supports ( 3b) and the relative bracket lid (2b) are assembled to the anchor system support (C) that make sure the joining to the Secondary Beam Structure.

Subsequently, the secondary beams will fixed to the anchor supports by screws.

Obviously the dimensions of the Modular Spherical Joint Bracket and of the multilayer wood-iron beam derive from the type of application that we would like to make, as well as from the dimensions of the main and secondary frame.

We would like to specify that the invention could be used and sized to facilitate also realize any kinds of roof coverage.

The invention described above has been realized in a preferred realization form, some of executing details may change without leave the original field of the invention and therefore from the domicile of the invention. -4-

Claims

Claims 1. Adjustable roof system consists of a multi-layer wood-still central beam "A" and a modular spherical joint bracket "B ".
2. Multi-layer central main beam, according to claim 1"A" consist in two or more wooden layer which through an specific milling, they are inserted and fixed by means of screws or glue, steel plates and other types of metal in order to create a single body.
3. Multi-layer central main beam according to claim 1"A", characterizes by the use we want to make of it, can be realized using vertical or horizontal plans.
4. Multi-layer central main beam according to claim 1"A", characterized by the realization inside "A" it at intervals of the holes to place inside it the modular spherical joint bracket "B".
5. The modular spherical joint bracket according to claim 1"B" includes a) N 2 spherical joint pin b) N 2 bracket lids c) N1 Joint bracket body COd) N 2 Anchor system CD e) Screws O
6. The modular spherical joint bracket according to claim 5/a, characterized by a thread on the pin that through a wheel of block stroke essential for anchoring the system.
7. The modular spherical joint bracket according to claim 5\b characterized that the holes on the flange are useful for connecting the spherical joint bracket body are realized slotted for any future adjustment.
8. Modular spherical joint bracket according to claim 5\b characterized by the hole useful for the exit of the connection pin to the anchoring system they are not made at the center of the axis of symmetry but well below in order to have a greater angle of inclination downwards.
9. The modular spherical joint bracket according to claim 5\c formed by two specular parts one threaded male and the other threaded female.
10.The modular spherical joint bracket according to claim5\c characterized by more threaded holes made on the connecting flange to obtain a better angle of union (between the male and female part).
11.The adjustable roof system is implemented according to the described logic.