RU198184U1 - Spring knot force for the assembly of wooden buildings and structures. - Google Patents

Abstract

The spring unit-force for the assembly of wooden buildings and structures refers to the field of construction and can be used to constantly maintain pressure between the individual structural elements of finished buildings from dry glued beams, round logs, solid shaped beams and others with long-term shrinkage and continuous expansion and compression of wood The technical result is to increase the reliability and preserve the compensatory properties of the spring unit for the entire life of the wooden structure due to the spring unit-force for the assembly of wooden structures and structures containing a rod with a faceted head, a conical spring, with a diameter of the smallest coil of spring, large diameter of the rod, but smaller than the diameter of the head, the upper thrust element located between the head and the upper end of the spring, made in the form of a flat washer; which, due to the possibility of its free axial movement along the shaft without distortions, due to the choice of diameter, is always aligned with the spring and, under the influence of gravity, is adjacent to the upper edge of the conical spring, not allowing the upper end to stop the rotation of the faceted head when screwed into the connected parts or damage the faceted head of the spring site during shrinkage and thermal deformation of assembled wooden structures. 3 s.p. f-ly, 2 ill.

Description

The spring unit-force for the assembly of wooden buildings and structures belongs to the field of construction and can be used to constantly maintain pressure between the individual structural elements of finished buildings from dry glued beams, round logs, solid shaped beams and others, with long-term shrinkage and continuous expansion and compression wood caused by climate change.

The well-known "Spring node-force for the assembly of wooden buildings and structures" according to patent RU 180363 dated 04/11/2018, published: 06/08/2018, IPC F16B 31/04 (2006.01), containing a rod with a faceted head, with a thread on the outer cylindrical surface, located on the opposite end of the rod from the head, and coaxially strung on the rod with the possibility of axial movement between the head and the thread of the upper and lower thrust element and the spring located between them, characterized in that the thrust elements are made cup-shaped; the rod is equipped with a safety sleeve longer than the height of the fully compressed spring, but less than the height of the fully expanded spring, placed coaxially between the cup-shaped elements inside the spring; the thread is made with a length of not more than 80 mm, with a groove at the end of at least 20% of the length of the thread.

But this design, due to the presence of a simple cylindrical spring in it without additional compression, does not allow pulling wall elements to each other with sufficient force during moisture shrinkage of wood.

The closest in technical essence to the claimed spring unit is a utility model “Fastener for connecting elements of wooden structures” according to patent RU 180024 dated 04.10.2017, published: 05/30/2018, F16B 31/00 (2006.01), which includes a rod with one-piece head made of two inextricably interconnected upper cylindrical and lower cylindrical parts, with the execution on the last thread, while on the upper cylindrical part of the rod there is a conical spring strung on it with the possibility of axial movement, it contacts the coil with the smallest diameter with the lower surface the head of the rod, and the lower thrust element, made with the possibility of supporting the coil of the spring with the largest diameter on it, and representing a washer with an annular vertical flange made along the outer contour of the washer, with the formation of a cavity between the central hole of the washer and the bead; as a rod with a head, a steel bolt is used, and the head is made with external faces on a turn-key basis; on the lower cylindrical part, a thread is made having an apex angle of 45 ° ± 3 °, with an average pitch and a tilt angle of the turns with respect to the vertical axis of the rod 45 ° h50 °, while the thread is made 2/3 of the length of the lower cylindrical part; the lower cylindrical part is made with a conical tip; the lower cylindrical part is made of a smaller diameter than the upper cylindrical part, while the mating zone between these parts is conical; the length of the lower cylindrical part is 1.7h2.4 times the length of the upper cylindrical part; the mounting angle comprises a locking element in the form of an open washer with a stop at the ends in the form of thickenings in contact with the lower stop element.

Placement of a conical spring in contact with the smallest diameter coil with the lower surface of the rod head, when the spring is compressed before the coils are closed, in this construction of the mounting unit, the spring is misaligned with respect to the integral head, with the diameter of this coil close to the diameter of the head for free movement along the rod , can provoke the application of excessive twisting force, up to breaking / crushing of the spring, and interfere with the spring, as a compensator, during shrinkage and deformation caused by climatic changes in wooden structural elements. When the diameter of this coil is close to the diameter of the rod, in order to maintain coaxiality, the movement of the entire spring is difficult, both during screwing, and during long-term shrinkage and continuous expansion and contraction of wood caused by climatic changes.

The objective of the proposed technical solution is to ensure the reliability of the assembled wooden buildings and structures in operation with long-term shrinkage and continuous expansion and contraction caused by climatic changes.

The technical result is to increase the reliability and preserve the compensatory properties of the spring unit for the entire life of the wooden structure due to the spring unit force for the assembly of wooden structures and structures containing a rod with a faceted head, with a thread on the outer cylindrical surface located on the end of the rod opposite from the head, and coaxially strung on the rod, with the possibility of axial movement between the head and the thread of the upper and lower thrust element and the spring located between them, while the spring is conical, with a diameter of the smallest coil larger than the diameter of the rod, but smaller than the diameter of the head, the upper thrust element, placed between the head and the upper end of the spring, made in the form of a flat washer; the thread on the outer cylindrical surface of the rod on the tip is provided with a notch; the conical spring is made of wire with a diameter of 4.5 - 5.5 mm for various sections of wall material; the depth of the notch on the thread is 0.3 rod diameter, and the width is not more than the length of the thread cone; the conical part of the thread is made with a tip of 35-40 degrees.

The implementation of a conical spring, with the diameter of the smallest coil larger than the diameter of the rod, but smaller than the diameter of the head, for free movement along the rod, allows the use of a more technologically advanced flat washer located between the head and the upper end of the spring, which, due to its free axial movement along the rod without distortions, due to the choice of diameter, is always aligned with the spring and, under the influence of gravity, is adjacent to the upper edge of the conical spring. not allowing the upper end to stop the rotation of the faceted head when screwing into the joined parts or to damage the faceted head of the spring assembly during shrinkage and thermal deformation of the assembled wooden structures.

It is also obvious that the washer serves as a safety device for the spring, without it, the spring is deformed when the assembly is screwed in, which leads to the failure of the entire spring assembly.

The presence of a notch on the point of the thread along its entire length on the outer cylindrical surface of the rod when tightening the screw relieves stress in the tree and allows you to tighten the screw without drilling a hole.

The implementation of the spring from the wire in the range 4.5 - 5.5 allows you to get springs with different stiffness for different wall material, and create the necessary force for upsetting and the beam and logs of different diameters, because the larger the cross-section of the bar or the diameter of the log, the more the force is necessary for the upsetting.

The essence of the proposed technical solution is illustrated by drawings, where in Fig.1 - spring unit-force for the assembly of wooden buildings and structures, general view, in Fig.2 - spring unit-force in working condition;

1, 2, the rod 1 is shown, the head 2 is faceted, the upper thrust element 3 is in the form of a flat washer, the spring 4 is conical, the seat 5 is under the spring assembly-force, the lower thrust element 6 is cup-shaped, thread 7, notch 8, upper detail (log, beam) 9 buildings, the lower part (log, beam) 10 buildings.

The spring node-force for the assembly of wooden buildings and structures is made as follows.

The spring node-force for the assembly of wooden buildings and structures is made in the form of a cylindrical rod 1, with a permanently attached head 2 with turnkey faces. The rod contains a thread 7, located on the opposite end of the rod 1 from the head 2, between the head 2 and the thread 7, coaxially placed, strung on it with the possibility of movement along the axis, the upper 3 and 6 lower thrust elements, with a conical spring 4 located between them.

The smallest coil of the conical spring 4 is made with a diameter larger than the diameter of the rod 1, for free movement along the rod, but smaller than the diameter of the head 2, which makes it possible to use the more technologically advanced located between the head 2 and the upper, smallest end of the spring 4 flat washer 3.

The upper stop element 3, located between the head and the upper end of the spring, made in the form of a flat washer, also serves as a safety device for the spring, without it, the spring is deformed when the assembly is screwed in, which leads to the failure of the entire spring assembly.

The thread 7 on the outer cylindrical surface of the rod on the tip is provided with a notch 8. The conical part of the thread 7 is made with a tip of 35-40 degrees, for easier entry into the tree when screwing. The depth of the notch 8 on the thread is 0.3 of the diameter of the rod, and the width is not more than the length of the cone of the thread, to prevent cracking of wood in the seat 5 by relieving stress by the notch 8, which allows not to exert excessive forces leading to the closing of the turns of the spring 7 during assembly , due to the additional point 8 of the thread 7 sharpened by the groove 8, which also preserves the compensatory properties of the spring assembly.

The manufacture of spring 4 from a wire with a diameter in the range of 4.5 - 5.5 mm allows you to get springs with different stiffness for different wall material, and create the necessary force for upsetting and timber and log 9.10 of different diameters, because the larger the cross-section of the bar or diameter logs, the more the upsetting force is needed.

The spring node-force for the assembly of wooden buildings and structures is used as follows.

To fasten two wooden parts 9 and 10 of the structure, a recess is drilled in the top 9 - a seat 5 under the head 2 of the rod 1. When fastening, into the seat 5 of the upper structure 9, insert the rod 1 of the spring mounting unit and, without first drilling a hole under the threaded part 7, made with a tip of 35-40 degrees and a notch 8, screw it with the conical part of the rod 1, until the threaded part 7 leaves the upper part 9 of the building and enters the lower part 10 of the structure.

When the lower stop element 6 reaches the bottom of the seat 5, it, sliding along the rod 1, begins to press the spring 4 against the upper stop element 3, in the form of a flat washer, which, resting against the head with faces 2, continues to move downward until the gap is removed in the interventional seat 5.

In this case, the thrust element 3, in the form of a flat washer, which, due to the possibility of its free axial movement along the rod without distortions, due to the choice of the diameter of the smallest coil of the conical spring 4, is always coaxial to the spring 4 and, by gravity, is adjacent to the upper edge of the conical spring 4, not allowing the upper end to stop the rotation of the faceted head 2 when screwing into the parts to be connected, or to damage the faceted head 2 of the spring assembly during shrinkage and thermal deformation of the assembled wooden structures.

The thrust element 6 does not allow the free end of the lower largest turn of the conical spring 4 to get outside the wall of the cup-shaped thrust element 6, which prevents the free end of the largest turn of the conical spring 4 from engaging with the wood fibers of the walls of the seat 5, and does not allow excessive force to be applied when twisting the spring node, which ensures the operation of the spring 4, as a compensator, with shrinkage and deformation caused by climatic changes in the wooden elements 9 and 10 of the structures.

The use of a spring 4 of wire with a diameter in the range of 4.5 - 5.5 for various wall materials allows you to create the necessary force for upsetting and the beam and log 9, 10 of different diameters, because the larger the cross-section of the beam or the diameter of the log, the more the upsetting force is needed.

So, for the products "Spring unit-force with a conical spring" of size 10x160 and 10x200 mm (for timber up to 160 mm high and logs up to 220 mm in diameter), the wire diameter is 4.5 mm with a spring force of 180-220 kg in a compressed state, and for a node with a size of 240 mm, the wire cross section is 5 mm, with a spring compression force of 240-260 kg (for a beam up to 250 mm and a log up to 280 mm), while for a product 10x280 mm (for a beam over 250 mm and a log with a diameter of more than 280 mm ) a spring with a wire diameter of 5.5 mm with a force of 280-300 kg is used.

The technical result is to increase the reliability and preserve the compensatory properties of the spring node force for the assembly of wooden buildings and structures for the entire life of the wooden structure.

Claims (4)

1. A spring assembly for assembling wooden buildings and structures, containing a rod with a faceted head, with a thread on the outer cylindrical surface located on the end of the rod opposite to the head, and coaxially strung on the rod, with the possibility of axial movement between the head and the thread of the upper and lower thrust element and a spring placed between them, characterized in that the spring is conical, with a diameter of the smallest coil, larger than the diameter of the rod, but smaller than the diameter of the head; the upper stop element located between the head and the upper end of the spring is made in the form of a flat washer; the thread on the outer cylindrical surface of the rod on the tip is provided with a notch. 2. The spring assembly according to claim 1, characterized in that the conical spring is made of wire with a diameter of 4.5 - 5.5 mm for various sections of the wall material. 3. The spring assembly according to claim 1, characterized in that the depth of the notch on the thread is 0.3 diameter of the rod, and the width is not more than the length of the thread cone. 4. The spring assembly according to claim 1, characterized in that the conical part of the thread is made with a tip of 35-40 degrees.

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