RU89569U1 - ADJUSTABLE FLOOR - Google Patents

Abstract

1. Adjustable floor, including the upper floor, resting on the lower floor, provided with through holes in which are fastening and adjusting elements with external thread, one end of which is attached to the supporting surface of the floor, and the other interacts with the inner side surface of the through hole of the lower floor, characterized in that the through holes in the lower deck are made with a diameter D1, the value of which is selected based on the ratio, D2-0.5S> D1> D2-2.2S, where D2 is the outer diameter of the fastening and adjusting element nta, and S is the height of the external thread profile of the fastening and adjusting element. ! 2. The adjustable floor according to claim 1, characterized in that the lower flooring is made in the form of a log or base plates.

Description

The utility model relates to construction, in particular to structures raised, adjustable in height and installed at a predetermined level relative to their base floors with the formation of an underground space.

An adjustable floor is known, including an upper floor resting on a lower floor provided with through holes in which fastening and adjusting elements with an external thread are placed, one end of which is attached to the supporting surface of the floor, and the other interacts with the inner side surface of the through opening of the lower floor, ( see RF patent for utility model No. 36690, IPC E04F 15/024, 2003). In this design, through holes without threads are drilled in the lower flooring, into which then fastening and adjusting elements are screwed when assembling the floor, the external thread of which forms an internal thread on the side inner surface of the through holes of the lower flooring. At the same time, it is obvious that the diameter of the through holes must have a quite definite value with respect to the outer diameter of the fastening and adjusting holes so that, on the one hand, the threaded connection of the lower flooring and fastening and adjusting elements withstands the floor load, and on the other hand, there is it would be possible to screw the fastening and adjusting element into the through hole of the lower floor without creating significant internal stresses in it and its destruction. The disadvantages of the known adjustable floor are its possible lack of reliability, due to the fact that in the absence of optimal ratios between the diameters of the through holes and the fastening and adjusting elements, there is the possibility of either insufficient strength of the threaded connection between the lower floor and the fastening and adjusting elements, or insufficient strength of the fastening and adjusting elements itself element after it is screwed into the through hole of the lower deck due to the presence of large internal stresses, not to mention its possible destruction by screwing.

The closest in technical essence to the proposed one is an adjustable floor, including an upper floor, supported by a lower floor, equipped with through holes in which fastening and adjusting elements with an external thread are placed, one end of which is attached to the supporting surface of the floor, and the other interacts with the inner side the surface of the through hole of the lower floor, (see RF patent for utility model No. 71133, IPC E04F 15/024, 2007). Known adjustable floor has the same disadvantages as the above technical solution.

The technical result achieved by the utility model is to increase the reliability of the adjustable floor through the use of structural elements that determine the bearing capacity of the floor, with optimal aspect ratios.

This technical result is achieved by the fact that in an adjustable floor, including the upper floor, resting on the lower floor, equipped with through holes in which are fastening and adjusting elements with an external thread, one end of which is attached to the supporting surface of the floor, and the other interacts with the inner side surface of the through hole of the lower deck, through holes formed in the lower deck having a diameter D _1, which value is selected based on the ratio, D ₂ -0,5S> D _1> D ₂ -2,2S, wherein D ₂ - outer diameter tr-fastening adjusting member, and S - profile height of the outer thread-fastening adjusting member.

In this case, the lower flooring can be made in the form of a log or base plates.

The choice of the parameters that determine the reliability of the adjustable floor, the diameter of the through hole of the lower floor, the outer diameter of the fastening and adjusting element and the height of the external thread profile of the fastening and adjusting element is due to the fact that these parameters of the lower floor and the fastening and adjusting element determine the strength of the threaded connection between them . In this case, if the diameter of the through hole of the lower flooring is too large with respect to the outer diameter of the fastening element, the floor load is small enough so that there is a breakdown of the threaded connection between the lower flooring and the fastening and adjusting element and the free movement of these elements relative to a friend. As shown by our numerous experiments with fastening and adjusting elements and lower floors of various types, materials and sizes, the above does not occur when the ratio of D ₂ -0,5S> D ₁ . If the diameter of the through hole of the lower flooring is too small with respect to the outer diameter of the fastening and adjusting element, this element is either impossible to screw into the lower flooring at all, or after tightening, its strength is significantly reduced due to the presence of large internal stresses in it. The same experimental studies showed that the diameter of the through hole of the lower deck, in order to avoid this, should correspond to the ratio D ₁ > D ₂ -2,2S.

The above circumstances and due to the choice as the optimal ratio above.

Figure 1 shows the fastening and adjusting element and the lower floor before screwing the fastening and adjusting element, and Fig. 2 shows the raised floor assembly, where one fastening and adjusting element is shown.

The adjustable floor contains the upper floor 1, the lower floor 2 (logs or support plates can be used as the lower floor) with through holes in which fastening and adjusting elements 3 are placed, each of which is made with an external thread along the entire length or on the upper lower ends. The fastening and adjusting elements 3 can be made, similarly described in the patents of the Russian Federation for utility model No. 10752, 36690, 71133, with an internal cavity, the shape of the side walls of which corresponds to the tool used for screwing them. The lower end of the fastener-adjusting element is fixed on the supporting surface 4 of the floor, for example, by installing a dowel-nail 5, the head of which interacts with the inner flange of the lower end of the fastener-adjusting element 3. Through holes in the lower deck are made with a diameter D ₁ , the value of which is selected based on the ratio, D ₂ -0.5S> D ₁ > D ₂ -2.2S, where D ₂ is the outer diameter of the fastener-adjusting element, and S is the height of the external thread profile of the fastener-adjusting element.

Installation of an adjustable floor can be carried out as follows.

The bottom floor 2, for example, logs or base plates, together with a set of fastening and adjusting elements 3 and dowel nails 5 go to the installation site. Through holes in the lower floor 2 are pre-drilled (holes can be drilled even after placing the lower floor 2 on the supporting surface 4 of the floor), made with a diameter D ₁ , the value of which is selected based on the ratio, D ₂ -0,5S> D ₁ > D ₂ -2,2S, where D ₂ is the outer diameter of the fastener-adjusting element, and S is the height of the external thread profile of the fastener-adjusting element. The lower deck 2 is installed on the supporting surface 4 of the floor, for example, with or without fastening and adjusting elements 3 already partially screwed into the through holes. Then, the fastening and adjusting elements 3 are screwed into the through hole of the lower floor 2 until its lower end comes into contact with the supporting surface 4 of the floor. In the cavity of each fastener-adjusting element 3, a dowel-nail 5 is passed through the hole located in its lower end and fixed to the supporting surface 4 of the floor so that the fastener-adjusting element can rotate about its axis. Then, with the help of a tool, for example, a key interacting with the internal cavity of the fastening and adjusting element 3, the latter is rotated, thereby ensuring that the placement of the lower floor 2 is adjusted in height with respect to the floor supporting surface 4. After the operation of installing the lower flooring 2 in the required position, the fastening and adjusting elements 3 are finally fixed to the supporting surface 4 of the floor, and their protruding parts are removed.

On the lower floor 2 installed in this way, the upper floor 1 is fastened, for example, of plywood, planking, parquet boards or panel parquet.

The proposed adjustable floor is easy to install, has high strength and reliable in operation.

Claims (2)

1. Adjustable floor, including the upper floor, resting on the lower floor, equipped with through holes in which are fastening and adjusting elements with external thread, one end of which is attached to the supporting surface of the floor, and the other interacts with the inner side surface of the through hole of the lower floor, characterized in that the through-holes formed in the lower deck having a diameter D _1, the value of which is selected based on the ratio, D ₂ -0,5S> D _1> D ₂ -2,2S, wherein D ₂ - fixing the outer diameter-regulating lementa and S - profile height of the outer thread-fastening adjusting member. 2. The adjustable floor according to claim 1, characterized in that the bottom flooring is made in the form of a lag or base plates.