RU2340733C1 - Ridge joint - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: ridge joint consisting of wooden bars the ends of which are mated angle-wise in relation to each other and secured with connecting plates differs in the fact that bars section is made in the form of I-beam profile the web of which is made of at least two veneer sheets located with a gap and secured to each other with transverse stiffeners. Flanges are made in the form of bars fixed along longitudinal ends of sheets. At that web and flange ends of bars abut each other, besides connecting plates are located in the gap between veneer sheets as well and touch their external surface, and joint area is fixed with tightening elements. Besides longitudinal stiffeners attached to sheets surfaces are arranged in the space between veneer sheets. Connecting plates are made from veneer of the same thickness like thickness of webs, and have V-shaped outline. Joint is provided with additional connecting plate fixed on external side of flanges joint. Besides vertical and metal rod being more preferable is fixed in joint plane.

EFFECT: providing high strength and stiffness of bars connection, and minimising consumption of construction materials at increased bearing capacity.

7 cl, 3 dwg

Description

The invention relates to the construction and can be used in the manufacture of wooden arches, frames and trusses.

Known ridge node (Design of glued wooden structures: Textbook. Part. Part III. Design of frames with curved sections and arches / E.N.Serov, Yu.D. Sannikov, Ed. By E.N.Serov; St. Petersburg. State. architect-building un-t. - St. Petersburg, 1999 - p. 92, fig. 12.9, a), including glued wooden elements and a tiled hinge. The design of the tile hinge is a welded shoes, connected to glued wooden elements using pins.

A disadvantage of the described analogue is its significant metal consumption and insufficient reliability and strength, since welded shoes reinforced with stiffeners are essentially rigid dies. In the wood, under the edges of the welded shoes, significant concentrations of normal and shear stress occur, which can lead to its delamination.

Known ridge node (Kormakov L.I., Valentinavichyus A.Yu. Designing glued wooden structures. - Kiev: Budivelnik, 1983 - p. 83., Fig. 42, a prototype), including wooden rods, the ends of which are joined at an angle to each other and fastened by butt pads. The disadvantage of the described prototype is its lack of reliability and strength, since in its design the glued wooden elements are hinged in the form of a cylindrical insert inserted into the grooves of the ends of the glued wooden elements connected to each other by means of strips of strip steel with bolt fastening. In this regard, the use of a cylindrical liner leads to the appearance of cracking stresses directed across the fibers in the wood and shear stresses along the fibers, which entails cracking and chipping. Thus, the ridge site has low reliability and strength, as well as a significant mass of elements that provide significant weight to the connection. In addition, fixing bolts weaken the cross section of the connected elements, which reduces their bearing capacity.

The technical task to be solved is to ensure the high bearing capacity of the ridge node.

The technical result obtained when solving the problem is expressed in ensuring the possibility of efficient use of the structure during the formation of the frame (with obtaining high strength butt joint, increased high rigidity). In addition, the most efficient use of the material of construction, i.e. a combination of minimizing its material consumption with increased bearing capacity.

To solve this problem, the ridge assembly containing wooden rods, the ends of which are joined at an angle to each other and fastened by butt pads, is characterized in that a cross-section of the rods is attached with an I-beam profile, the wall of which is made of at least two plywood plates placed with a gap and bonded to each other by means of transverse stiffeners, bonded to both plates, and the shelves are made in the form of bars fixed along the longitudinal edges of the plates on their outer side, while the ends of the shelves and approx rods upertost each other, moreover, laths and placed in the gap between the plates of plywood, and in contact with their outer surface, wherein the joint portion over the entire area fishplates and this portion is stitched entire thickness clamping elements, for example screws. In addition, in the gap between the plywood plates, along their longitudinal edges, longitudinal stiffeners are placed, bonded to the respective surfaces of the plates. In addition, the butt pads are made of plywood of the same thickness as that used for the manufacture of the wall. In addition, the butt pads are given a V-shape in the shape of a ridge, with the ends of the inner pads abut against the transverse stiffeners, and the length of the external pads exceeds the distance between the transverse stiffeners closest to the joint. In addition, the unit is equipped with an additional butt plate made of a material whose tensile strength is higher than that of the material of the rods fixed on the outer side of the joint of the shelves undergoing tensile forces. In addition, the pads and corresponding plates at the junction are additionally bonded with glue. In addition, a thrust, preferably vertical and made of metal, is fixed in the plane of the assembly.

A comparative analysis of the features of the claimed solutions with the features of the prototype and analogues indicates the compliance of the claimed solutions with the criterion of "novelty."

The features of the characterizing part of the claims solve the following functional tasks

Signs “a cross-section of the rods is given a profile of an I-beam, the wall of which is made of at least two plywood plates placed with a gap and fastened to each other by means of transverse stiffeners fastened to both plates, and the shelves are made in the form of bars fixed along longitudinal edges plates on their outer side ”, provide the possibility of forming a high-strength and lightweight building structure from two profiled rods, while it is possible to increase the load-bearing capacity of the structure due to increasing the wall height (without fear of losing wall stability under loads along the profile walls), increasing the moment of resistance of the beam section (by increasing the size of the shelf) while ensuring the strength of the joining of the rods due to the “interpenetration” of the joint of internal and external overlays on the joined sections without significant increase the material consumption of these sites.

Moreover, the presence of transverse stiffeners ensures the compatibility of the work of the rod elements - plates and bars, i.e. their work, as elements of one building structure, and a general increase in the strength characteristics of the profile.

The signs “the ends of the shelves and the walls of the rods are abutted against each other” provide a reduction in the specific compressive loads on the ends of the rods in the zone of their contact.

The signs “overlays are placed both in the gap between the plywood plates and in contact with their outer surface” provide the possibility of the formation of a monolithic (without cavities) structure in the joint zone when gluing the overlays with the walls and tightening the structure with screws.

The signs “the joint section over the entire area of the butt plates and the entire thickness of this section is stitched with tie-in elements, for example with screws”, ensure the redistribution of the loads perceived by the roof ridge over a fairly wide section of the rods.

The signs "in the gap between the plywood plates, along their longitudinal edges, are placed longitudinal stiffeners, bonded to the respective surfaces of the plates" ensure the compatibility of the beam elements - plates and bars, while the location of the longitudinal stiffeners in the area of the "shelves" of the bar profile increases the moment of resistance profile sections, i.e. provides a general increase in its strength characteristics.

The signs “butt pads are made of plywood, the same as used for the manufacture of the wall” simplify the preparation of production and optimize the strength characteristics of the pads from the standpoint of minimizing the material consumption of the joint section.

Signs indicating that “the butt plates are given a V-shape in the shape of a ridge, the ends of the inner plates are abutted in the transverse stiffeners, and the length of the external plates exceeds the distance between the transverse stiffeners closest to the joint” ensure that the overlays perform joint fastening functions and function node as an element of the frame. In addition, it is possible to perceive part of the bending loads by the shelves of the profile and the redistribution of the loads perceived by the roof ridge to a fairly extensive section of the structure.

The signs “the unit is equipped with an additional butt plate made of a material whose tensile strength is higher than that of the rods material fixed on the outside of the flange joint undergoing tensile loads” and the signs “plates and corresponding plates at the joint section are additionally bonded with adhesive” provide an increase in strength interface characteristics.

The signs "in the plane of the assembly fixed traction, preferably vertical and made of metal" provide the possibility of forming an additional fulcrum for the underlying.

Figure 1 schematically shows a longitudinal vertical section of a node; figure 2 is a schematic side view; figure 3 is a schematic top view.

The drawings show wooden rods to which an I-beam profile is attached, the wall of which is made of at least two plywood plates 1, placed with a gap 2 and fastened to each other by means of transverse stiffeners 3, bonded to both plates. Shelves "I-beams" are made in the form of bars 4, while the ends of the shelves 5 and the ends of the walls 6 of the rods are placed in contact with each other. In addition, pads 7 (internal - placed in the gap 2 between the plywood plates 1) and pads 8 (external - placed in contact with the outer surface of the plates) are shown. The overlays are given V-shaped outlines in the shape of the ridge, while the overlays 7 and 8 in width correspond to the width of the plates 1 remaining free. The butt pads 7 and 8 are made of plywood the same as that used for the manufacture of the walls of the rod. It is advisable that the ends 9 of the inner plates 7 were abutted in the transverse ribs 3, closest to the junction. It is advisable that the length of the outer pads 8 exceed the distance between the transverse stiffeners 3, closest to the junction. The joint section over the entire area of the butt plates 8 and the entire thickness of this section is stitched with tie elements 10, for example screws.

In addition, an additional butt plate 11 is shown, made in the form of a thin metal plate and fixed on the outside of the junction of the bars experiencing tensile loads. In addition, in the gap 2 between the plates of plywood 2, along their longitudinal edges, shows longitudinal ribs 12, bonded to the respective surfaces of the plates 1.

In addition, a thrust 13 is shown, preferably vertical and made of metal, passed through a through hole made in the plane of the assembly and secured, for example, by nuts placed on the end of the threaded rod (the last elements are not shown in the drawings).

The rods are made by gluing in the factory on stands of known design, providing a predetermined fixation of its elements and their corresponding compression during the hardening of the glue. For the manufacture of shelves 2 and transverse 3 and longitudinal 12 stiffeners, wood is used not lower than the 2nd grade of coniferous species (except larch) according to GOST 8486-86 with dimensions according to GOST 24454-80 with the corresponding design characteristics according to SNiP P-25-80 . The quantitative parameters of the defects in the shape and processing of parts (warping, deviation from parallelism of the layers and edges, wane) should not exceed those allowed for lumber of the 2nd grade. Through cracks extending to the end face are not allowed. Rotted, rotten and tobacco knots, as well as non-grown knots located on the edges, are not allowed.

The bars of the shelves of the rods are glued along the length using gear joints in accordance with GOST 19414-90. Indicators of ultimate flexural strength of gear joints should not be lower than:

- when immersing the edge (about 33 MPa and not lower than 24 MPa);

- when immersing the reservoir (about 37.5 MPa and not lower than 27 MPa).

For the manufacture of plates 1, as well as, if necessary, both transverse 3 and longitudinal 12 stiffeners, plywood of the FSF grade of a grade of at least V / BB in accordance with GOST 3916.1-89 with a thickness of 8 and 10 mm is used.

The transverse stiffeners 3 are placed along the length of the beam at a distance from each other in “hazardous to destruction” sections of the beam, determined by calculation for specific conditions (which is most appropriate), taking into account the "compatibility" of the plates or set this distance for technological reasons based on the minimum number of stiffeners, ensuring the "compatibility" of the plates.

Adhesive joints in structures should be performed on synthetic adhesives that meet the requirements of SNiP P-25-80. In this case, adhesive joints must satisfy the following requirements:

- the moisture content of the wood of the beam parts before processing with protective compounds should be (12 ± 3)%;

- beams for the quality of adhesive joints must meet the requirements of GOST 20850-84;

- the thickness and width of the glued layers in the girder belts should deviate from the nominal not more than ± 1 mm;

- the thickness of the adhesive layers in the structural elements should be no more than 0.5 mm. Areas with a thickness of up to 1 mm are allowed if their length does not exceed 100 mm, and the distance between them is not less than ten times the length of these layers; non-glued areas are not allowed.

Finished structures, if necessary, are subjected to protective and / or decorative processing to protect them from moisture, biodeterioration, fire and chemical corrosion, as well as giving them the necessary aesthetic appearance. These works are performed at the manufacturer. Protection is possible both from one and from a complex of these effects, which is regulated by the operating conditions of structures. At the same time, beams for buildings of the V degree of fire resistance must be protected from biodegradation for a period of uninterrupted service of 50 years, for parts of the VIII class of service conditions - according to GOST 20022.2-80; wood of beams for buildings of the IV degree of fire resistance should be protected from biodegradation and fire by deeply impregnating with diammonium phosphate (ammonium phosphate) with ammonium sulfate, borax with boric acid in a ratio of 1: 1 or other protective compounds with similar properties.

Finished products are packaged and sent to the consumer.

The formation of the ridge node includes filing the ends of the rods at an angle that provides a predetermined angle of the roof ridge and preparing the plates 7 and 8. Next, the assembly of the node is carried out - the bars are laid sideways on a flat surface, the ends of their shelves 5 and the ends of the walls 6 are joined together in the gap 2 rods (or gaps 2, if the number of plates 1 is more than two), inserts 7 are inserted, and plates 8 are placed on the outer surfaces of the plates 1, glue is applied onto the corresponding surfaces of the plates 7 and 8 and / or the surfaces of the plates 2 (synthetic Enikeev SNP P-25-80). Further, within the area of the linings 8, compressive forces are provided perpendicular to their outer surface, after which a “package” including plates 1 and linings 7 and 8 are “sewn” to the entire thickness with tie elements, for example, screws, which are evenly distributed over the entire joint area. Next, the joint is strengthened by the placement and fixing with screws of an additional butt plate 11 on the outer side of the joint of the rods experiencing tensile loads. Then, if it is provided by the project, thrust 13 is passed through the assembly in a known manner and is fixed.

It is advisable to carry out the assembly operation of the unit in the factory. After completing the truss assembly, including the claimed node, it is used to form the roof frame of the building. Moreover, this process differs from conventional technologies with the exception of the need to use powerful lifting equipment due to the low weight of the frame.

In the process of perception by the node of structural loads, its elements and pads 7, 8 and 11 provide the frame as a whole.

In addition, by varying the number of plates and stiffeners in the structure, it is possible to vary the bearing capacity of the structure over a wide range (while maintaining the constant width of the plates, i.e. the height of the profile wall).

Claims (7)

1. The ridge site containing wooden rods, the ends of which are joined at an angle to each other and fastened by butt pads, characterized in that the cross-section of the rods is attached to an I-beam profile, the wall of which is made of at least two plywood plates placed with a gap and fastened with each other by means of transverse stiffeners bonded to both plates, and the shelves are made in the form of bars fixed along the longitudinal edges of the plates on their outer side, while the ends of the shelves and the walls of the rods are abutted against each other n addition, laths and placed in the gap between the plates of plywood, and in contact with their outer surface, wherein the joint portion over the entire area fishplates and this portion is stitched entire thickness clamping elements, for example screws. 2. The ridge assembly according to claim 1, characterized in that in the gap between the plywood plates, along their longitudinal edges, longitudinal stiffeners are placed, bonded to the respective surfaces of the plates. 3. The ridge assembly according to claim 1, characterized in that the butt pads are made of plywood of the same thickness as that used for the manufacture of the wall. 4. The ridge assembly according to claim 1, characterized in that the butt plates are given V-shaped outlines in the shape of a ridge, the ends of the inner plates being abutted in the transverse stiffeners, and the length of the outer plates exceeds the distance between the transverse stiffeners closest to the joint. 5. The ridge assembly according to claim 1, characterized in that the assembly is provided with an additional butt plate made of a material whose tensile resistance is higher than that of the material of the rods fixed on the outside of the joint of the shelves experiencing tensile forces. 6. The ridge assembly according to claim 1, characterized in that the pads and corresponding plates at the interface are additionally bonded with glue. 7. The ridge assembly according to claim 1, characterized in that a thrust is fixed in the plane of the assembly, preferably vertical and made of metal.

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