RU221814U1 - Connection unit for wall panels and floor slabs made of CLT using metal plates and glued screws - Google Patents

Abstract

The utility model relates to construction and can be used when connecting wooden structural elements. The designed connection consists of the connecting elements (wall panel and CLT floor slab) and connecting elements (two escutcheons (one with a tenon, the other with a groove). The cross sections of the tongue and groove are dovetail shaped and expand in a wedge shape in the longitudinal direction of the application loads to the connection, while the flashings are attached to the wall panel and CLT floor slab using glued screws, between the screw and the wood, as well as between the metal flashing and the wooden element, there is an adhesive layer of epoxy resin and hardener, on the sides of the metal flashings attached to wooden elements, notches are made, the length of the screws screwed into the overlay with a groove is greater than the length of the screws screwed into the overlay with a tenon, all holes for the screws are placed at an angle of 90° to the surface of the overlay into which the screws are screwed, the cross sections of the tenon and groove of the overlays have a large degree of expansion in the form of a wedge in the longitudinal direction of application of load to the connection; there is no contact between the tongue and groove of the linings in their lower parts. The development was carried out using the equipment of the Head Regional Center for Collective Use of Scientific Equipment and Installations (GR TsKP) of the National Research University MGSU.

Description

This utility model relates to construction and can be used to connect wooden structural elements.

From the existing state of the art, a device for connecting wooden elements is known [US 10655320 B2, publ. 05/19/2020], consisting of a solid connecting element in the shape of a corner, which is attached to wooden elements using nails or screws. At the same time, in the shelf of the corner, which is attached to the wall panel, holes of the same diameter are drilled staggered, and in the shelf attached to the floor panel, holes of a larger diameter are additionally drilled, intended for screws screwed into the ceiling at an angle of about 75 degrees.

The disadvantage of this technical solution is that the given design of the connecting element creates difficulties when installing the floor slab; it must be hung, then the installer must fasten the floor to the walls without ensuring safe working conditions. Another disadvantage is the open method of the developed connection of wooden elements. This leads to a decrease in the fire resistance of the connection and its aesthetic parameters.

The closest to the claimed technical solution is a device for connecting a wall panel and a CLT floor slab [www.sherpa-connector.com], consisting of a CLT wall panel, a CLT floor slab and two aluminum overlays connected using the dovetail principle. . In this case, part of the screws for fastening the overlays to wooden elements is placed horizontally (at an angle of 90° to the surface of the overlay in which the holes are made), and part - obliquely (at an angle α = 52.5° to the surface of the overlay in which the holes are made).

The disadvantage of this technical solution is that the connection is malleable, the length of the screws screwed into the tongue and groove linings is the same, despite the different values of the effort to pull out the screws securing the linings to the wooden elements along and across the wood fibers, the linings contain inclined holes for screws, which complicates the manufacture of overlays, the process of screwing screws into wooden elements and greatly reduces the possibility of ensuring tight contact between the screw head and the countersunk surface of the hole in the overlay for screws. Also, due to the insignificant degree of expansion of the tenon and groove of the linings in the longitudinal direction of the application of load to the connection and the presence of contact of the tenon and groove of the linings in their lower parts, the necessary uniform distribution of transmitted forces along the length of the side faces of the tenon and groove, which arise when the connection is loaded, is not ensured, as As a result, in the lower part of the tenon and groove, a place of stress concentration is formed in a small area, resulting in the collapse of the linings in this place, an increase in the load on the upper screws and a decrease in the load-bearing capacity of the connection as a whole.

The technical result of the proposed utility model is to increase the load-bearing capacity and reduce the deformability of joints of wall panels and floor slabs made of CLT.

This problem is solved due to the fact that the connection unit consists of a wall panel and a floor slab made of CLT, connected using two metal plates located on them, one with a tenon, the other with a groove, the cross sections of the tenon and groove of which are dovetail shaped and expand in the shape of a wedge in the longitudinal direction of application of load to the connection, while

the overlays are attached to the wall panel and CLT floor slab using adhesive-screwed screws,

between the screw and the wood, as well as between the metal plate and the wooden element, there is an adhesive layer of epoxy resin and hardener,

there are notches on the sides of the metal plates attached to the wooden elements,

the length of the screws screwed into the escutcheon with a groove is greater than the length of the screws screwed into the escutcheon with a tenon,

all holes for screws are placed at an angle of 90° to the surface of the plate into which the screws are screwed,

the cross sections of the tenon and groove of the linings have a large degree of expansion in the shape of a wedge in the longitudinal direction of application of load to the connection,

there is no contact between the tongue and groove of the linings in their lower parts.

The essence of the utility model is illustrated by drawings, which show:

in fig. 1 - diagram of the location of the metal plate on the wall panel made of CLT;

in fig. 2 - diagram of the location of the metal overlay on the CLT floor slab;

in fig. 3 - section A-A in Fig. 2;

in fig. 4 - section BB in Fig. 2;

in fig. 5 - section B-B in Fig. 1;

in fig. 6 - section Г-Г in Fig. 1.

The utility model is a detachable connection between a wall panel (1) and a floor slab (2) made of CLT, consisting of connected elements (a wall panel (1), a floor slab (2) made of CLT and connecting elements (two steel plates (one with a tenon ( 3), the other - with a groove (4), which are fixed to two wooden elements using glued screws, to form a rigid and reliable connection according to the “dovetail” principle and transfer loads from one element to another). This solution ensures reliable perception of forces inside the connection in all directions (perception of torques in three mutually perpendicular directions and forces during tension and compression), with the exception of those directed in the direction opposite to the loading of the connection and leading to separation of the linings.

Structural alloy steel is used as the material for the manufacture of connecting elements.

The covers contain holes (5) for screws. There are notches (6) on the sides of the metal plates attached to the wooden elements. The notches on the back of the linings can be single, double cross, rasp or arc.

The cross sections of the tenon (7) and groove (8) of the lining with the tenon (3) and the lining with the groove (4) are made in the shape of a dovetail with a wedge-shaped expansion towards the bottom in the longitudinal direction of application of the load to the connection. This form of the tenon (7) and groove (8) provides a self-centering effect for the possibility of connecting the linings without significant effort and impacts and reliable connection of the linings without their unwanted jamming, even in the case of misalignment of the linings and their initially incorrect position relative to each other.

The cross-sectional shape of the groove (8) is in the shape of a dovetail with a wedge-shaped widening, which makes it easy to insert the lining with a tenon (3) into the lining with a groove (4). The groove (8) consists of two parts. The widened part of the groove of the lining (4) acts as a guide for the lining with the tenon (3) and greatly simplifies the process of inserting the linings into each other. After aligning the lining with the tenon (3) with the widened part of the groove of the lining (4), the narrow part of the groove of the lining (4) more accurately and within smaller tolerances centers the lining with the tenon (3) until the process of connecting the linings with the required clearances is completed.

Between the tenon (7) of the lining with the tenon (3) and the groove (8) of the lining with the groove (4) in their narrow parts in the vertical direction there is a gap of 3 mm to ensure the distribution of internal stresses arising when the connection is loaded along the length of the side edges of the tenon ( 7) and groove (8).

The metal linings are fastened to the wooden elements using adhesive screws, which pass through the holes in the linings (5) and press the back side of the lining to the wooden element. The glued screws are located at an angle of 90° to the end of the wooden element to which the cover is attached.

For diffusion impregnation of wood around a pre-drilled hole at atmospheric pressure without the use of high pressure and special equipment, the walls of the hole are pre-impregnated with glue by gradually filling the hole with a low-viscosity adhesive composition using a syringe and a needle.

The overlay with a groove (4) is fixed to a wooden element into which the screws are screwed along the wood grains, the overlay with a tenon (3) is attached to a wooden element into which the screws are screwed across the wood grains. The total length of the screws screwed into the groove cover (4) is greater than the length of the screws screwed into the tenon cover (3).

An adhesive composition is applied to the back surface of the lining. ED-20 epoxy resin and TETA hardener, ED-20 epoxy resin and PEPA hardener, DER-331 epoxy resin and TETA hardener, DER-331 epoxy resin can be used as an adhesive layer between the screw and the wood, as well as between the metal plate and the wood. and hardener PEPA.

The connection is made in an open manner without milling a groove in the CLT floor slab, provided that fire protection is provided by filling the gaps formed after installing the metal overlays with non-flammable materials, for example, layered thermally expanding self-adhesive tape. Also, the gaps can be filled with wooden inserts, which in the event of a fire will prevent the fire from spreading to the metal linings and heating them.

The connection can also be made in a closed manner by milling a groove in the CLT floor slab. In this case, the width of the connection unprotected from fire on all sides except the bottom is 5 mm; it has been experimentally confirmed that this gap size does not require additional fire protection measures for the linings. On the bottom side this value reaches 15 mm. The lower gaps can be filled with wooden inserts, which in the event of a fire will prevent the fire from spreading to the metal linings and heating them, or with non-combustible materials.

The location of metal plates on wooden elements, the location of holes in wood and metal plates, as well as the minimum permissible distances from the edges of wooden elements to the ends of metal plates are assigned taking into account the requirements for the placement of holes established by SP 64.13330.2017 “Wooden Structures” and SP 16.13330.2017 "Steel structures".

This useful model allows you to achieve increased load-bearing capacity and reduced deformability of connections due to

impregnation of wood with adhesive compositions uniform in height and depth of the hole in the area of the screw thread and beyond due to an increase in the working area of the screw, an increase in the degree of adhesion of the screws to the walls of the holes, leveling possible violations of the wood structure within the threaded connection, the formation of a modified layer of wood after polymerization of the glue increased physical and mechanical characteristics of the wood nests around the screws - the most stressed area of the connection, an increase in the depth of impregnation of the wood around the screw due to the creation of pressure on the glue located in the holes at the moment of screwing in the screws and pressing it into the walls of the holes,

introducing into the design the connection of an adhesive layer between the rear surface of the metal plate and the wooden element,

making notches on the sides of metal plates attached to wooden elements and, as a result, increasing the coefficient of friction of the surfaces,

the fact that the length of the screws screwed into the escutcheon with a groove is greater than the length of the screws screwed into the escutcheon with a tenon,

the fact that all screw holes are placed at an angle of 90° to the surface of the plate into which the screws are screwed,

the fact that the cross sections of the tenon and groove of the linings have a large degree of expansion in the form of a wedge in the longitudinal direction of application of load to the connection,

lack of contact between the tongue and groove of the linings in their lower parts.

This useful model can be used in the construction of buildings and structures for various purposes using wooden elements, including long-span and multi-story ones, in the reconstruction and restoration of buildings and structures, including cultural heritage sites.

Claims (12)

1. Connection unit between a wall panel and a CLT floor slab, connected by means of two metal plates located on them, one with a tenon, the other with a groove, the cross sections of the tenon and groove of which are dovetail shaped and expand in the shape of a wedge in the longitudinal direction of load application to the connection, characterized in that the overlays are attached to the wall panel and the CLT floor slab using adhesive-screwed screws, between the screw and the wood, as well as between the metal overlay and the wooden element, there is an adhesive layer of epoxy resin and hardener, on the sides of the metal overlays attached to wooden elements, notches are made, the length of the screws screwed into the overlay with a groove is greater than the length of the screws screwed into the overlay with a tenon, all holes for the screws are placed at an angle of 90° to the surface of the overlay into which the screws are screwed, cross sections of the tenon and groove of the overlays have a large degree of expansion in the shape of a wedge in the longitudinal direction of application of load to the connection; there is no contact between the tongue and groove of the linings in their lower parts. 2. The connection unit according to claim 1, characterized in that all the gaps formed after installing the metal plates in an open manner are filled with non-combustible materials. 3. The connection unit according to claim 1, characterized in that all the gaps formed after installing the metal plates in an open manner are filled with wooden inserts. 4. The connection unit according to claim 1, characterized in that the notches on the back side of the linings are single, double cross, rasp or arc. 5. The connection unit according to claim 1, characterized in that ED-20 epoxy resin and TETA hardener are used as the adhesive layer between the screw and the wood, as well as between the metal plate and the wood. 6. The connection unit according to claim 1, characterized in that ED-20 epoxy resin and PEPA hardener are used as the adhesive layer between the screw and the wood, as well as between the metal plate and the wood. 7. The connection unit according to claim 1, characterized in that DER-331 epoxy resin and TETA hardener are used as the adhesive layer between the screw and the wood, as well as between the metal plate and the wood. 8. The connection unit according to claim 1, characterized in that DER-331 epoxy resin and PEPA hardener are used as the adhesive layer between the screw and the wood, as well as between the metal plate and the wood. 9. Connection unit according to claim 1, characterized in that the connecting elements are made of structural alloy steel. 10. The connection unit according to claim 1, characterized in that it is made in a closed way by milling a groove in the CLT floor slab. 11. The connection unit according to claim 10, characterized in that the lower gaps formed after installing the metal plates in a closed manner are filled with wooden inserts. 12. The connection unit according to claim 10, characterized in that the lower gaps formed after installing the metal plates in a closed manner are filled with non-combustible materials.

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