PL245074B1 - Roof truss - Google Patents

Abstract

A roof truss used in construction, especially for roofs and flat roofs, with increased fire resistance, is in the shape of a flat truss made of wooden structural beams (2) in the form of external strips constituting the sides of the truss and internal cross braces. The structural beams (2) in the truss nodes are permanently connected with connectors, and at least one structural beam (2) included in at least one outer chord of the roof truss has at least on its outer side (7), intended for the outer side of the outer chord, a longitudinal reinforcing member (8) permanently mounted on said outer side (7) of the structural beam (2). The reinforcing element (8) is in the form of a tape, embedded in a longitudinal groove (9), which has a width not less than the width of the tape and a depth not less than the thickness of the tape. The roof truss has an overlay (10), which is a tightly covered reinforcing element (8) in a longitudinal groove (9) along its length in the structural beam (2). The cover (10) is in the form of a flat beam pressed against the outer side (7) of the structural beam (2) on both sides of its longitudinal groove (9). Moreover, the cover (10) has a width greater than the width of the longitudinal groove (9) of the structural beam (2) and is in the form of a wooden beam with a width adapted to the width of the outer side (7) of the structural beam (2) with a reinforcing element (8).

Description

Description of the invention

The subject of the invention is a roof truss used in construction, especially for the construction of roofs and flat roofs, and having increased fire resistance.

The basic function of a roof covering is to protect the building against weather conditions. However, we should not forget about another important function, which is ensuring fire protection of the building. The ability of a roof to meet the requirements for stability, tightness and fire insulation within a given period of time is called fire resistance.

Roofs consist of two parts: a supporting structure and layers that protect the building against weather conditions. The supporting structure of the roof is most often made of wooden beams, steel or reinforced concrete elements and glued wood. Regardless of what material is chosen for the supporting structure of the roof, it must meet the requirements set out by building fire safety regulations. These requirements result from the applicable technical and construction regulations contained in the Regulation of the Minister of Infrastructure of April 12, 2002 on the technical conditions to be met by buildings and their location. The regulation specifies fire resistance classes for buildings.

According to the regulation, in the event of a fire, a building and related equipment should ensure: the load-bearing capacity of the structure, limiting the spread of fire, smoke and fire to neighboring buildings, and the possibility of evacuating people in the event of a threat. All building elements, including the supporting structure of the roof and its covering, should meet the requirements for a given building's fire resistance class (Table 1). If it is planned to install installation elements or a suspended ceiling on the roof covering, it should also meet the fire load-bearing criterion.

Table 1

Fire resistance class of the building Fire resistance class of building elements Roof construction Roof covering AND R30 E30 B R30 E30 C R15 E15 D [-] [-] E [-] [-]

R - fire load [in minutes]

E - fire tightness [in minutes] j-] - no requirements are imposed

As shown in Table 1, buildings with fire resistance class A or B should have a roof supporting structure with a fire resistance of at least 30 minutes, and the roof covering in these buildings should have a fire resistance of at least 30 minutes. There are no requirements regarding the fire load-bearing capacity of roof structures and fire tightness of roof coverings in buildings with fire resistance class D or E.

There is a well-known roof truss in the shape of a flat truss made of beams made of solid wood with a sawn thickness of 25-70 mm, produced in spans up to 30 m. The roof truss consists of an external belt in the form of a lower belt, to which finishing elements can be attached, and upper belts, on which the subfloor for the roof covering is laid and horizontal, vertical and diagonal crosses connecting the upper and lower strips, and the ends of the beams, constituting the truss nodes, are connected with connectors in the form of spiked plates, plates with holes for nails or wooden connectors. Spike plates and nail plates are pressed into the sides of the beams using a press. The next stage is to install the roof trusses on the building. Wooden roof trusses, made of solid wood and connected with nail plates, due to the small thickness of the timber, up to 70 mm, and with large dimensions with a span of up to 30 m, are not very stable in the transverse direction, especially when lifting and installing them on a building structure.

It is commonly known from construction practice, for example in single-family houses, a roof truss in the shape of a flat truss made of wooden beams in the form of external strips constituting the sides of the truss and internal cross-braces, with the beams in the truss nodes being permanently connected with connectors.

There is also a commonly known method of producing a roof truss, which involves preparing a technical design on a computer containing the shapes and dimensions of individual truss beams of the roof truss, then cutting out beams from lumber with the given shapes and dimensions resulting from this design and finally assembling the roof truss from the individual beams by permanently connecting them mechanically with connectors in the truss nodes using a press.

A roof truss is known from the publication of the US invention no. US 2012011805A1, consisting of strips and cross-braces connected at nodes with connectors, whose strips constituting external beams have a longitudinal strengthening element permanently mounted on their external side.

In turn, a system of strengthening wooden beams with longitudinal steel reinforcement is known from the publication of the US patent No. US 6167675B1. This known solution shows that longitudinal reinforcement can be made on a beam using a press after cutting beams of given shapes and dimensions from sawn timber, and at the same time before installing the beam in the final structure.

From the publication of the Polish patent description No. PL 228737 B1, a roof truss in the shape of a flat truss is known, made of wooden beams in the form of external strips constituting the sides of the truss and internal cross-braces, with the beams in the truss nodes being permanently connected with connectors, and at least the beams constituting the external roof truss chords have at least on their outer side, which is provided for the outer side of the outer chords, a longitudinal reinforcement element firmly attached to this outer side of the beam. In this known solution, the strengthening element of the roof truss beam is in the form of a tape, preferably metal, embedded in a longitudinal groove on the outer side of the beam, wherein the longitudinal groove of the roof truss beam has a width not less than the width of the strengthening element tape and a depth not less than the thickness of this tape. , which increases the stiffness of the truss structure. For assembly reasons and to increase the stiffness of the roof truss structure, the tape of the roof truss beam reinforcing element is in the form of a perforated tape, and this tape has the shape of a flat bar, an angle, a C-section or a T-section in cross-section. To obtain installation advantages and durability of the roof truss, the strengthening element is permanently attached to the roof truss beam by means of nails and/or screws, and/or staples, and/or glue, and the strengthening element of the roof truss beam is protected against corrosion. The connectors that connect the roof truss beams at the truss nodes are in the form of spiked plates pressed into the sides of the beams and/or through-hole plates attached to the beams with nails, and/or wooden connectors.

Roof truss in the shape of a flat truss made of structural wooden beams in the form of external strips constituting the sides of the truss and internal diagonal struts, wherein the structural beams in the truss nodes are permanently connected with connectors, and at least one structural beam included in at least the external chord of the roof truss has at least on its outer side, provided on the outer side of the outer flange, a longitudinal strengthening element permanently mounted on said outer side of the structural beam, and further, the strengthening element of the roof truss structural beam is in the form of a strip, embedded in a longitudinal groove on the outer side of the structural beam, with wherein the longitudinal groove of the structural beam of the roof truss has a width not less than the width of the tape of the reinforcing element and a depth of not less than the thickness of this tape, according to the invention it is characterized by having an overlay which tightly covers the reinforcing element in the longitudinal groove along its length in the structural beam , wherein the overlay is in the form of a flat wooden beam pressed against the outer side of the structural beam on both sides of its longitudinal groove with a reinforcing element to increase the fire resistance and durability of this reinforcing element.

Preferably, to further increase the fire resistance of the roof truss, its cap has a width greater than the width of the longitudinal groove with the reinforcing member of the structural beam, and the cap has a width equal to the width of the outer side of the structural beam with the reinforcing element.

Further advantages in terms of facilitating the assembly of the roof truss and increasing the stiffness of the roof truss structure are obtained if the tape of the reinforcing element of the structural roof truss beam is in the form of a perforated tape, the tape having the shape of a flat bar or an angle, a C-section or a T-section in cross-section and the strengthening element is permanently attached to the structural roof truss beam by means of nails and/or screws and/or staples and/or glue, and furthermore, the strengthening element of the structural roof truss beam is protected with an anti-corrosion coating, preferably anti-corrosion paint, wherein the connectors , which connect the structural roof truss beams at the truss nodes, are in the form of spiked plates pressed into the sides of the structural beams and/or plates with through holes attached to the structural beams with nails and/or in the form of wooden connectors.

Thanks to the invention, a durable roof truss was developed with increased fire resistance of up to 32 minutes, which was confirmed by fire tests according to applicable standards for the truss according to the invention in a furnace, subjected to loads as in the truss structure in the target building. This roof truss is stable under lateral forces and does not bend sideways. When manufacturing and installing a roof truss on the roof of a building according to the invention, the destruction of sawn timber and nail plates used in the connections of the roof truss nodes is reduced. The use of a strengthening element stiffens the external belts, in the form of upper belts and lower belt in the roof truss, which allows for the safe transport of the roof truss to the construction site and the possibility of safe lifting to the roof of the building, as well as ensuring the safety of installers on the construction site.

The subject of the invention is explained in more detail in the embodiment in the drawing, in which Fig. 1 shows a roof truss according to the invention in a side view, and Fig. 2 - a structural beam with an overlay of the same roof truss in cross-section.

The roof truss 1, according to the invention in its embodiment, is intended for use in construction, for the construction of roofs and flat roofs, has increased fire resistance and is in the shape of a flat truss made of wooden structural beams 2 in the form of external strips 3 constituting the sides of the truss and internal cross-braces 4 The structural beams 2 at the truss nodes 5 are permanently connected by connectors 6. The structural beams 2 that constitute the lower outer chord 3, which is supported directly on the supports of the roof truss 1, have on their outer side 7, provided for the outer side of the outer chords 3, a longitudinal reinforcing element 8 permanently mounted on the outer side 7 of the structural beam 2. The reinforcing element 8 is in the form of a metal strip, embedded in a longitudinal groove 9 on the outer side 7 of the structural beam 2. The longitudinal groove 9 of the structural beam 2 of the roof truss 1 has a slightly larger width than the width of the tape of the reinforcing element 8 and a depth slightly greater than the thickness of this tape.

The roof truss 1 has a cover 10, which is a tightly covered reinforcing element 8 in a longitudinal groove 9 along its length in the structural beam 2. The cover 10 is in the form of a flat beam pressed against the outer side 7 of the structural beam 2 on both sides of its longitudinal groove 9 with an element reinforcing element 8, where the overlay 10 has a width greater than the width of the longitudinal groove 9 with the reinforcing element 8 of the structural beam 2 and is in the form of a wooden beam with a width equal to the width of the outer side 7 of the structural beam 2 with the reinforcing element 8. The overlay 10 is attached to the structural beam 2 with screws or nails or is glued to it.

The tape of the reinforcing element 8 is in the form of a perforated tape, the tape having the shape of a flat bar in cross-section. The reinforcing element 8 in the form of a tape is permanently attached to the structural beam 2 of the roof truss 1 with nails and protected against corrosion.

The connectors 6 connecting the structural beams 2 of the roof truss 1 at the truss nodes 5 and connecting the structural beams 2 with the pads 10 are in the form of spiked plates pressed into the sides of the structural beams 2 and through-hole plates attached to the structural beams 2 with nails. The reinforcing element 8 of the structural beam 2 of the roof truss 1 is protected with anti-corrosion paint.

The roof truss 1 is manufactured and assembled in such a way that a technical design is prepared containing the shapes and dimensions of the individual structural beams 2 of the roof truss truss 1 and the overlays 10, and then the structural beams 2 and overlays 10 with the given shapes and dimensions are cut out of sawn timber. resulting from this design and finally, the roof truss 1 is assembled from the individual structural beams 2 and overlays 10 through a permanent mechanical connection with connectors 6. Between the operations of cutting out the structural beams 2 and installing the roof truss 1, in the structural beams 2 that constitute the lower outer chord 3 of the roof truss 1, a longitudinal strengthening element 8 is permanently attached to the outer side 7 of such structural beams 2, provided for the outer side of the outer strips 3. After the operation of cutting out the structural beams 2 of the roof truss 1, a longitudinal reinforcement is milled on the outer side 7 of these structural beams 2 a groove 9 with a cross-section slightly larger than the cross-section of the reinforcing element 8, and this reinforcing element 8 is embedded in the longitudinal groove 9. The longitudinal groove 9 is milled through through the entire length of this structural beam 2. When embedded in the longitudinal groove 9, the reinforcing element 8 is unwound from the coil on the drum, placed at the bottom of the longitudinal groove 9, then pressed and attached to the structural beam 2, and after attaching, it is cut from the coil to the length of the reinforced structural beam 2, while pressing and fastening the strengthening element to the structural beam 2 8 is made on a press. Then, covers 10 are mounted to these structural beams 2, covering the longitudinal groove 9 with the reinforcing element 8.

To permanently attach the reinforcing element 8 to the structural beam 2 of the roof truss 1, nails are used in the number resulting from the technical design. The reinforcing element 8 is protected against corrosion. As connectors 6 for connecting the structural beams 2 of the roof truss 1 in the truss nodes 5, there are used nail plates, which are pressed into the sides of the structural beams 2, and plates with through holes, which are fastened to the structural beams 2 with nails.

The invention finds application especially in construction.

Claims (7)

1. Roof truss in the shape of a flat truss made of structural wooden beams in the form of external strips constituting the sides of the truss and internal cross braces, with the structural beams in the truss nodes being permanently connected with connectors, and at least one structural beam being part of at least the external strip of the roof truss has at least on its outer side, provided on the outer side of the outer flange, a longitudinal strengthening element permanently mounted on this outer side of the structural beam, and furthermore, the strengthening element of the structural beam of the roof truss is in the form of a strip, embedded in a longitudinal groove on the outer side of the structural beam , wherein the longitudinal groove of the structural beam of the roof truss has a width not less than the width of the tape of the reinforcing element and a depth of not less than the thickness of this tape, characterized in that it has an overlay (10) which tightly covers the reinforcing element (8) in the longitudinal groove ( 9) along its length in the structural beam (2), the cover (10) being in the form of a flat wooden beam pressed against the outer side (7) of the structural beam (2) on both sides of its longitudinal groove (9) with a reinforcing element (8 ). 2. Roof truss according to claim 1, characterized in that the cover (10) has a width greater than the width of the longitudinal groove (9) with the reinforcing element (8) of the structural beam (2). 3. Roof truss according to claim 1 or 2, characterized in that the cover (10) has a width equal to the width of the outer side (7) of the structural beam (2) with the reinforcing element (8). 4. Roof truss according to claim 1 or 2 or 3, characterized in that the tape of the reinforcing element (8) of the structural beam (2) of the roof truss (1) is in the form of a perforated tape, and this tape has the shape of a flat bar or an angle section or a U-section in cross-section, or T-bar. 5. Roof truss according to claim 1 or 2 or 3 or 4, characterized in that the strengthening element (8) is permanently attached to the structural beam (2) of the roof truss (1) by means of nails and/or screws and/or staples and/or glue . 6. Roof truss according to claim 1 or 2 or 3 or 4 or 5, characterized in that the reinforcing element (8) of the structural beam (2) of the roof truss (1) is protected with an anti-corrosion coating, preferably anti-corrosion paint. 7. Roof truss according to claim 1 or 2 or 3 or 4 or 5 or 6, characterized in that the connectors (6), which connect the structural beams (2) of the roof truss (1) in the truss nodes (5), are in the form of spiked plates pressed into the sides of the structural beams (2) and/or plates with through holes attached to the structural beams (2) by nails and/or in the form of wooden connectors.