RU182755U1 - Floor stand - Google Patents

Abstract

The inventive utility model relates to construction, in particular to devices for leveling and rigidly fixing at a predetermined level of a lag when installing dry adjustable floors. The support column for an adjustable floor contains a hollow sleeve made of hard plastic with a vertical part 1 having an external thread made with in the same step. The vertical part 1 has a generally cylindrical shape, tapering to the central through hole 4. The vertical part 1 of the sleeve is integrally connected to the bottom part 2 of the sleeve with the formation of a mating line 9. The bottom part 2 of the sleeve is made with an outer diameter smaller than the outer diameter of the vertical parts 1 of the sleeve. The vertical part 1 in the zone 3 adjacent to the bottom part 2 has an external thread made in such a way that the profile height of adjacent coils 8 of the external thread decreases in the direction of the bottom part 1, while the profile height of the coils 8 of the external thread is less than the height of the external profile threads of the vertical part 1. The bottom part 2 is made with a flat outer surface for interaction with the base of the adjustable floor and has a central through hole 4 for passing a fastener for fixing to the base of the floor. The bottom part 2 of the sleeve is made with a thickness, making it possible to carry out in the body of the bottom part 2 two arc multidirectional grooves 5, emanating from the central hole 4 to the outer contour with the formation of side grooves 6 in close proximity to the interface line 9 of the bottom 2 and vertical 1 parts of the sleeve. The vertical part 1 is made with a cavity 10, the inner walls 12 are equipped with engagement elements in the form of faces 11 in the amount of twelve pieces, and at the top of the open end, the vertical part 1 is provided with a flange 7 made in the form of a thickened ring. The technical result is the simplified installation of the support element for adjustable floor while improving the operational reliability of the design of the adjustable floor. 5 cp f-ly, 4 ill.

Description

The inventive utility model relates to construction, in particular to devices for leveling and hard fixing at a predetermined level lag when installing dry adjustable floors.

Known adjustable fastening and supporting element for the floor, which is a threaded rack having in the upper part of the fastening elements for fixing the rack in the panel or floor lag, and in the lower part - an anchor element for fixing the rack in the base or ceiling. The support is intended for the construction of predominantly raised floors, while as an anchor element it contains a tubular element that deforms under axial compression with longitudinal slots. The lower part of the tubular element rests on a conical sleeve rigidly fixed on the lower end of the rack, and on the rack there is a nut and washer resting on the upper end of the tubular element. When screwing the nut, the deformable element is securely fixed in the hole of the base (patent RU 74942, 2008).

A disadvantage of the known design is the increased pressure on the floor panel or lag, the need to tighten the nuts with the washer after the floor panel or log has dried. Another disadvantage is the complexity of installation, due to the possibility of errors in the preparation of the holes in the floor panel or log.

Known fastening element for adjusting the height of the flooring, made with the possibility of screwing into the hole of the flooring or logs. The fastening-supporting element is a hollow rack having a closed end at one end for attaching it to the base. The hollow pillar is made with an external thread and a variable wall thickness along the height and / or along its perimeter, and the end face of the pillar from the cavity side has a cone-shaped surface. The outer diameter of the end face is equal to the diameter of the outer thread of the rack or exceeds it with the formation of a flange, the height of which is at least equal to half the distance between adjacent turns of the thread (patent RU No. 2157877, 2000).

Closest to the proposed design of the support pillar is a support pillar for an adjustable floor, designed for screwing into wooden logs with through threaded holes. The support posts have an external thread and a variable wall thickness along the height and / or perimeter of the rack, each of which consists of a vertical part and a bottom part made in one piece with a central hole for passing a fastener having a flat outer surface in contact with the base of the adjustable floor, and the inner conical surface from the side of the cavity of the rack, tapering to the Central hole, the diameter of the rack is equal to the diameter of the hole lag. The racks are made of thermoplastic material from the group containing polystyrene, and the ratio of the minimum wall thickness of the vertical part of the rack without taking into account the height of the threads in the interface between it and the inner surface of the bottom part to the minimum distance from the inner surface of the bottom part to its flat outer surface is 1 :( 2-6) (patent RU 2369702, 2009).

The disadvantages of the above structures are the complexity of installation and the risk of destruction of the support element, which is due to the fact that the conical surface on the side of the cavity leads to uneven pressure of the rotating tool on only part of the end surface. Installation complicates design features associated with the size of the outer diameter of the end face, which is equal to the inner diameter of the outer thread of the rack or exceeds it with the formation of a flange, which prevents accurate positioning when threading. In addition, the design of the support element itself does not provide for the possibility of removing solid fragmentation elements and partially dust generated during drilling of the hole, which during its installation requires additional preparatory operations necessary for the effective installation of the support stand. The above disadvantages lead to low operational reliability of the supporting elements.

The technical problem is the complexity of installation, which requires additional operations to remove dust and debris that form when the hole is formed while at the same time risking destruction of the fully or partially supporting element during installation, which leads to low operational reliability.

EFFECT: simplified installation of a supporting element for an adjustable floor, while simultaneously increasing the operational reliability of the adjustable floor structure.

Simplification of installation is ensured by reducing the number of installation operations, reducing the effort during installation of support elements and reducing the number of support elements, while significantly reducing the risk of hidden defects and cracks, the risk of lowering the strength during installation and during operation.

The inventive support column for an adjustable floor is made in the form of a plastic hollow sleeve with an external thread, having a vertical part made in one piece and a bottom part with a central through hole for passing the fastener, the bottom part is made with a flat outer surface for interaction with the base of the adjustable floor, the cavity the vertical part has a generally cylindrical shape, tapering to the central through hole, the inner walls of the vertical part of the sleeve are provided with elements faces in the form of faces, while the bottom of the sleeve is made with a thickness that allows two differently directed arc grooves in the body of the bottom to extend from the central hole to the external contour with the formation of side grooves in close proximity to the interface line between the bottom and the vertical parts of the sleeve, the bottom part of the sleeve is made with an outer diameter smaller than the outer diameter of the vertical part of the sleeve, the vertical part is made with the same pitch of the external thread, and in the zone, when fitting to the bottom, the height of the profile of adjacent turns of the external thread decreases in the direction of the bottom.

The inventive sleeve has three working areas.

The positioning zone is intended for positioning in a threaded mounting hole made, for example, in wooden logs. The rack positioning zone is represented by the bottom of the sleeve, which is made with an outer diameter, the value of which is less than the outer diameter of the vertical part of the sleeve with an external thread, and preferably forms a stepped transition along the line of conjugation of the bottom and vertical parts of the sleeve.

To simplify the positioning of the rack relative to its installation location, the bottom part is made with an outer diameter smaller than the inner diameter of the mounting hole, providing free placement of the bottom part in it.

The vertical part of the sleeve in the area adjacent to the bottom part forms a zone of interaction with the threaded part of the mounting hole made in the lag, simplifying screwing the rack into the mounting hole during installation due to the changing profile height of adjacent turns of the external thread. The vertical part in the area adjacent to the bottom has an external thread profile height that is less than the external thread profile height in the middle and upper parts. Moreover, approximately to a height of 25% of the total height of the sleeve in the direction from the interface line with the bottom part, the height of the profile of each upper thread is greater than the height of the profile of the lower thread. Due to the difference in the heights of the external thread profiles, the latter performs the function of a transition thread and creates a conical shape of the outer generatrix of the vertical part in the zone adjacent to the bottom part. Transitional external thread performs the function of a tap to form a thread in the installation hole. To further simplify installation, the transition coils can have a different shape, repeating the profile of various taps. The maximum thread pitch for the selected diameter, the thread angle is metric 60º.

The middle and upper parts of the sleeve form a threaded connection zone, and the open end is made with a flange in the form of a thickened ring, the outer diameter of which exceeds the outer diameter of an adjacent turn of the external thread.

In addition, the turns of the external thread in the middle and upper parts of the vertical part of the sleeve can be made with a diameter of 0.1-1.0% greater than the diameter of a standard thread (27 mm), which further increases the operational reliability of the inventive rack. Preferably, the diameter of the external thread of the threaded joint zone is 27.25 mm, and the turns of the external thread are made with a diameter preferably exceeding 3.25 mm, the inner diameter of the mounting hole (24 mm).

The presence of a flange on the open end provides an additional result associated with a decrease in the risk of injury during the installation of the rack, as well as a reduction in the risk of collapse of the sleeve as a result of mechanical stress during the screwing of the rack during installation.

In the cavity of the rack on its inner walls of the vertical part of the sleeve approximately 90% of the height made elements of engagement in the form of faces. Preferably, the walls of the cavity have 12 faces, providing the possibility of transmitting high torque, with a minimum consumption of plastic. The faces have a flat surface to increase the contact surface when interacting with the counter faces of a tool transmitting mechanical forces of rotation, for example, a socket wrench. This leads to a decrease in pressure on the walls of the vertical part of the sleeve, reducing the risk of their mechanical destruction during installation. As a tool, any suitable tool, betraying the force of rotation, for example, a hexagonal rod 17 of the size, can also be used. The presence of 12 (twelve) faces in the cavity of the rack reduces the positioning time of the socket wrench or other tool in the cavity of the rack and reduces the consumption of plastic.

The central through hole in the bottom is made stepped, with a diameter sufficient to pass the mounting support element for attaching the bottom to the base. The stepwise execution of the through hole means the presence of at least two mating cylindrical shapes of different diameters, which ensures the exact placement of the anchor or other fastening element with the formation of a supporting platform in the form of a bed for the upper part of the fastening element. A stepped central hole in the bottom allows you to create a variable thickness of the sleeve in its lower part. This, in turn, allows you to evenly distribute the load, eliminating the risk of cracks in the walls of the sleeve and its bottom when attaching the mounting support element, and also speeds up the process of mounting the rack and reduces the labor costs for installation.

As the material for the manufacture of the inventive racks use any suitable hard plastic for these purposes.

The execution of the bottom part of the sleeve of two multidirectional arc grooves emanating from the central hole to the external contour with the formation of side grooves in close proximity to the interface line of the bottom and vertical parts of the sleeve simplifies installation and at the same time increases operational reliability due to the fact that it rotates to the right during installation and subsequent adjustment levels for leveling the floor, multidirectional arc grooves provide removal of solid shrapnel elements and dust from under the bottom th of the rack. This reduces labor costs for preparing the installation site of the rack by mechanically cleaning it from contamination, eliminates the possibility of the formation of a pillow from dust and small fragments, ensuring tight contact of the flat bottom of the rack with the base of the floor and providing fine adjustment during installation and reliable operation.

Comparison of the claimed utility model with the prototype shows that the combination of its essential features differs from the closest analogue, which allows us to conclude that the criterion of "novelty".

The inventive rack can be made of known materials by known methods, for example, by casting, which allows us to conclude that the criterion of "industrial applicability".

The inventive utility model is illustrated by the following figures.

In FIG. 1 shows a support post for an adjustable floor - a general view.

In FIG. 2 shows the vertical part of the sleeve with an area adjacent to the bottom.

In FIG. 3 shows the bottom of the sleeve.

In FIG. 4 shows a view from the side of the open end of the sleeve.

The inventive support post for an adjustable floor contains a hollow sleeve made of hard plastic with a vertical part 1 having an external thread made with the same pitch. The vertical part 1 has a generally cylindrical shape, tapering to the central through hole 4. The vertical part 1 of the sleeve is integrally connected to the bottom part 2 of the sleeve with the formation of a mating line 9. The bottom part 2 of the sleeve is made with an outer diameter smaller than the outer diameter of the vertical parts 1 of the sleeve. The vertical part 1 in the zone 3 adjacent to the bottom part 2 has an external thread made in such a way that the profile height of adjacent coils 8 of the external thread decreases in the direction of the bottom part 1, while the profile height of the coils 8 of the external thread is less than the height of the external profile the threads of the vertical part 1. The bottom part 2 is made with a flat outer surface for interaction with the base of the adjustable floor and has a central through hole 4 for passing a fastener (not shown) for fastening to the floor base. The bottom part 2 of the sleeve is made with a thickness, making it possible to carry out in the body of the bottom part 2 two arc multidirectional grooves 5, emanating from the central hole 4 to the outer contour with the formation of side grooves 6 in close proximity to the interface line 9 of the bottom 2 and vertical 1 parts of the sleeve. The vertical part 1 is made with a cavity 10, the inner walls 12 are equipped with engagement elements in the form of faces 11 in the amount of twelve pieces (Fig. 4), in the upper part of the open end, the vertical part 1 is provided with a flange 7 made in the form of a thickened ring.

The inventive support column is made by casting from a thermoplastic material that provides structural rigidity, for example, from ABS plastic or glass-filled plastic.

The vertical part 1 of the support strut with an external thread is performed with an outer diameter of 27.25 mm and above. The lower turn in zone 3 adjacent to the bottom part 2 is made with a diameter of 24.0 mm, and each subsequent turn of the transition thread in zone 3 has a diameter larger than the diameter of the previous turn, increasing to a diameter of 27.25 mm in the vertical part 1 support rack. Zone 3 is approximately 25% of the total height of the support post. The profile of the turns 8 of the transition thread in zone 3 repeats the profile of various taps. The central through hole 4 is made with a diameter that provides free placement of a metal anchor with a diameter of 6 mm and a head with a flat surface with a diameter of 13 mm for fastening the lag to the base of the floor. The transition thread of zone 3 provides the possibility of screwing the support stand into wooden logs made of solid, glued, spliced timber, as well as plywood logs, and other supporting elements into the mounting holes, which can be prepared in advance or during installation. This allows you to form a thread through the transition thread of zone 3, providing the possibility of screwing the support stand without the use of special tools, such as a tap M27X3. The bottom 2 part, made flat, with multidirectional arc grooves 5 allows you to freely rotate in the installation hole due to the fact that the outer diameter of the bottom part 2 is less than the diameter of the installation hole. This also allows for accurate positioning of the support post in the mounting hole of the log. When turning the support column, the multidirectional arc grooves of the 5th bottom 2 parts make it possible to impart a directional movement of dust to small fragments resulting from the formation of a thread in the installation hole and hole formation when drilling the floor base through the cavity 10 of the support column and the central through hole 4, cleaning the surface of the floor base for tight contact of the flat surface of the bottom 2 parts. During the installation of the support stand with muscular application of forces, the presence of the flange 7 reduces the risk of injury and reduces the risk of destruction of the support stand when using an end hex or twelve-sided tool, the working surfaces of which interact with the faces 11 of the support stand, providing screwing in the support stand and adjusting the floor level.

The execution of the bottom part 2 with two arc multidirectional grooves 5, emanating from the central hole 4 with the formation of side grooves 6 in the immediate vicinity of the interface line 9 of the bottom 2 and vertical 1 parts, the execution of the bottom 2 parts with an outer diameter smaller than the outer diameter of the vertical 1 parts and the implementation in the zone 3 of the transitional thread, the diameter of the turns 8 of the external thread of which decreases in the direction of the bottom part, together with other signs ensure the achievement of the declared technical about the result, which is to simplify the installation of the support element for the adjustable floor while increasing the operational reliability of the design of the adjustable floor. The claimed design of the support rack provides high performance: a large cross-sectional area, a large working area of the thread, which can withstand loads of about 1340 kg.

The inventive utility model can be used in the installation and repair of floors in any room, with the exception of rooms operated with a temperature above the melting temperature of the plastic or at a low temperature above the brittle temperature, under the influence of an environment that causes the destruction of the plastic.

Claims (6)

1. A support column for an adjustable floor in the form of a plastic hollow sleeve with an external thread, having a single vertical part and a bottom part with a central through hole for passing the fastener, the bottom part is made with a flat outer surface for interaction with the base of the adjustable floor, cavity the vertical part has a generally cylindrical shape, tapering to the Central through hole, the inner walls of the vertical part of the sleeve are equipped with engagement elements in the form of faces, characterized in that the bottom part of the sleeve is made with a thickness that allows two multidirectional arc grooves extending from the central hole to the outer contour in the body of the bottom part to form side grooves in close proximity to the interface line between the bottom and vertical parts of the sleeve, the bottom part of the sleeve is made with an outer diameter smaller than the outer diameter of the vertical part of the sleeve, the vertical part is made with the same outer thread pitch, and in the adjacent zone minutes to a bottom portion, the height profile of adjacent turns of the external thread is reduced towards the bottom portion. 2. A support column for an adjustable floor according to claim 1, characterized in that the vertical part from the side of the open end is provided with a flange in the form of a thickened ring, the outer diameter of which exceeds the outer diameter of the adjacent turn of the external thread. 3. A support column for an adjustable floor according to claim 1, characterized in that the threads of the external thread are made with a diameter preferably exceeding 3.25 mm the inner diameter of the mounting hole. 4. A support column for an adjustable floor according to claim 1, characterized in that the bottom of the sleeve is made with an outer diameter the size of which is less than the inner diameter of the mounting hole. 5. A support column for an adjustable floor according to claim 1, characterized in that the engagement elements are made in the form of twelve faces in the sleeve cavity on its inner height walls. 6. A support column for an adjustable floor according to claim 1, characterized in that the central through hole in the bottom is stepped, with a diameter sufficient to pass the fastening and supporting element for fixing the bottom to the base and forming a stop for the head of the fastening and supporting element .

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