RU2192525C1 - Floor boarding - Google Patents

Abstract

FIELD: civil engineering, manufacture of floors experiencing high mechanical loads. SUBSTANCE: invention allows task of design of freely-laid floors for dancing hall, gymnasia and the like to be solved. Floor boarding includes set of wooden members such as squared timber or matched board. Each member has hole. Cable passed through holes and mounted loop-shaped via cable holder on last member of set is used in the capacity of fixing device. Free ends of cable are fixed with tension. Cable holder comes in the form of pin with head which is installed in hole for cable uniaxially with it. Pin has through hole and head of pin is placed on metal plate anchored on wooden member fitted with stopper of reverse pitch of pin head. EFFECT: increased strength of floor boarding, its stability to formation of contraction cracks which appear with the course of time. 1 cl, 2 dwg

Description

 The invention relates to the field of equipment and decoration of buildings, in particular to the field of manufacturing floors, especially floors experiencing high mechanical stresses.

 Known flooring (L1), consisting of wooden elements, such as boards, fastened together by reciprocal longitudinal edges. Typically, such floorings are rigidly connected to the base (L1). It is also known that all wood flooring has a significant drawback: with time, shrink cracks form between the wooden elements. Recently, to overcome this drawback, free-lying (floating) flooring has been used, in which wooden elements (parquet boards) are rigidly connected to each other, for example, by means of an adhesive joint.

 But this method of joining wooden elements is applicable only for floors that do not experience large mechanical stresses.

 The closest in design to the proposed is the well-known (L2) flooring. It consists of a set of wooden elements (boards) connected by means of fixing devices, each of which is made in the form of a reciprocal groove and spike. Such a flooring cannot be used in the form of a free-lying one where it will experience large mechanical stresses (sports halls, dance floors, etc.), since the fastening devices provide insufficiently reliable connections.

 The problem solved by the invention is the development of such a design of free-lying floors that can withstand heavy loads.

 The problem is solved due to the fact that the proposed flooring contains, like the well-known, a set of wooden elements connected by means of fixing devices. But, unlike the known one, a through hole is made in the transverse direction of each wooden element in the proposed flooring, and a rope is used as a fastening device, passed through the through holes and looped through the rope holder mounted on the last element of the set, the free ends of the rope being fixed with ensuring its tension.

 The essential features set forth in paragraph 2 of the formula detail the design of the rope holder, which is made in the form of a metal pin with a head installed in the hole for the cable coaxially with it, and in the pin there is a through hole in the transverse direction, and the pin head is mounted on a metal plate, rigidly fixed on a wooden element equipped with a pin head backstop.

 The invention is illustrated by drawings, where in Fig.1 shows a diagram of a device flooring; figure 2 is a view aa in figure 1.

 Consider the design of flooring. In this example, a timber is used as a wooden element. A tongue and groove board may also be used. A through hole 2 is made in each element 1. A metal cable 3 (cable) is passed through all the holes. Cable 3 runs from the first element of the set to the last. A rope holder 3 is installed in the hole of the last element. In the considered example, a pin 4 with a head 5 is used as a rope holder. Pin 4 is installed in the hole 2 coaxially with it. It has a through hole 6 in the transverse direction. A cable 3 is passed through the hole in the pin, which then passes through all the holes again and then the free ends are fastened with a knot. The head 5 of the pin 4 is located on a metal plate 7, mounted on the lateral longitudinal part of the wooden element. After the assembly of the flooring is completed, the pin, on which the cable is hooked, allows you to make the screed of the beam more rigid. The rotation of the head 5 of the pin causes the cable to twist, which leads to an increase in the total tension of the cable. In order for the cable not to unwind in the opposite direction, a stupor 8 for the reverse stroke of the pin head is mounted on the metal plate 7. The proposed design of the rope holder serves to solve not only this problem, but also an additional one: as mentioned above, shrinkage gaps form in all wooden floors over time. But, using the proposed holder, you can tighten the rope, increase its tension and get rid of cracks.

 In this example, the rope passes through all the holes twice. But this is not the only embodiment of the mounting device. It is possible to fix the rope with a knot on the first wooden element, pass through the holder and immediately after that fasten the end of the loop to the rope. In this case, the rope passes through all the wooden elements once.

 As can be seen from the description of the floor structure, the flooring has high strength to high mechanical loads and resistance to the formation of shrinkage cracks.

Claims (2)

 1. A flooring comprising a set of wooden elements and one or more fixing devices, characterized in that a through hole is made in the transverse direction of each wooden element, and a rope is used as a fixing device, passed through the through holes and looped through the rope holder mounted on the last element of the set, and the free ends of the rope are fixed to ensure its tension.  2. The device according to p. 1, characterized in that the rope holder is made in the form of a pin installed in the hole for the rope coaxially with it, moreover, the through hole is made in the pin in the transverse direction, and the pin head is mounted on a metal plate rigidly mounted on a wooden an element equipped with a pin head backstop.

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