PL71538Y1 - Supporting post, in particular for traffic signs or advertising boards - Google Patents

Abstract

The post is a set of modules arranged in succession with a common longitudinal axis in the following order: a base module (1), at least one serial module (2) in the form of closed profiles with variable cross-sectional dimensions and one top module (3) in the form of a closed profile with old cross-sectional dimensions. The base module (1) consists of a base with the largest cross-sectional area, at the top of which there is a step passing into the main part with smaller cross-sectional dimensions than the base cross-sectional dimensions, and near the free end of the main part of the base module (1) there is a second step passing into a connector, on which a serial module (2) is slidably placed with a small clearance, which has mostly constant horizontal cross-sectional dimensions and near the opposite end has a step passing into a connector. A top module (3) is slidably placed with a small clearance on the connector of the highest situated serial module (2).

Description

Description of the Design: The subject of the utility model is a multi-purpose support post, particularly for road signs, advertising boards, and other visual information carriers. The most common support posts for road signs and boards are made of a closed metal profile with a circular or rectangular cross-section and a constant diameter or diagonal along its entire length. Patent No. 68881 discloses a road post intended for warning markings. The post comprises at least two interconnected tubular modular elements slidably mounted on a base on one side, while another tubular modular element slidably attached to the other side is closed at the top with a dome of any shape. A tubular modular element has a narrower end on one end and a wider end on the other, where both ends have the same cross-sectional shape, and the narrower end has external transverse dimensions no greater than the internal transverse dimensions of the wider end. The dome has a through-hole along its axis of symmetry, and the base has a through-hole or recess along its axis of symmetry. The tubular modular elements, the base, and the dome are made of plastic. A tube for support structures is known from utility model application 126234, found in the form of a metal tube with a circular cross-section, characterized by in that on the circumference of the pipe it has two symmetrically located extrusions directed inwards, constituting internal ribs running along the entire length of the pipe along its longitudinal axis of symmetry. The side surfaces of the ribs are parted symmetrically by an angle of α = 60° ± 3°, the rib depth (h), measured from the outer diameter (D) of the pipe, is from 0.09 to 0.11 of the outer diameter (D) of the pipe, the rounding radius (r) of the tops and bases of the ribs is from 0.3 to 0.4 of the sum of the values of the rib depth (h) and the thickness (g) of the pipe wall. The essence of the solution according to the utility model is that the support post constitutes a set of stacked modules with a common longitudinal axis in the following order: a base module, at least one serial module in the form of closed profiles with variable cross-sectional dimensions, and one top module in the form of a closed profile with constant cross-sectional dimensions. The cross-sections of the modules have a shape close to a polygon. The base module consists of a base with the largest cross-sectional area, at the top of which there is a setback turning into the main part with smaller cross-sectional dimensions than the base, and near the free end of the main part of the base module there is a The second offset transitions into a connector, onto which a serial module is slidably mounted with a small amount of clearance. This module has mostly constant horizontal cross-sectional dimensions and, near the opposite end, a offset transitions into a connector. Meanwhile, the top module is slidably mounted with a small amount of clearance onto the connector of the highest serial module. The post has a rectangular cross-section. The post has an octagonal cross-section. The advantage of the solution according to the utility model is the gradation of the post's cross-sectional dimensions, which allows for optimal use of material and optimized corrosion protection. Thanks to the modular design, the support post can be The post is delivered to the installation site in sections, where it is assembled as a supporting structure for road markings or advertising boards. Delivery can be made using smaller means of transport, including packages on pallets, which reduces costs and improves transport logistics. The number of modules in a row for the post is not specified, as it is determined by the terrain conditions in which the post is to be placed and its intended purpose, which affects its height. This has the advantage that posts are not manufactured to a specific height; instead, modules of various lengths are manufactured, and the appropriate set is assembled on site. The utility model has been granted. illustrated with a drawing, where Fig. 1 is a vertical cross-section of the post, Fig. 2 and Fig. 7 - side view of the base module, Fig. 3 and Fig. 8 - side view of the serial module, Fig. 4 and Fig. 9 - side view of the gable module. Fig. 5 - horizontal cross-section of the base module in two variants a and b. The supporting post consists of: a base module 1 and at least one serial module 2 having the same vertical axis of symmetry with it. The modules are made of closed profiles with variable cross-sectional dimensions. The base module 1 consists of a base 5, at the top of which there is a setback turning into the main part 4 with smaller cross-sectional dimensions than the The dimensions of the cross-section of the base 5 are the same. Near the free end of the main part 4 of the base module 1 there is a second, smaller step 7, which again reduces the dimensions of the cross-section of the module by an amount corresponding to the thickness of the module wall, passing into the connector 8. On the connector 8 there is slidably placed, with a small clearance, a series module 2, which has, for the most part, constant dimensions of the horizontal cross-section, and near the opposite end there is a step 9, passing into the connector 10. On the connector 10 of the highest situated series module 2 there is slidably placed, with a small clearance, a top module 3 with constant dimensions of the cross-section. The outer walls of the connector 8 of the base module 1 which are in contact with the inner side of the walls of the series module 2 and the outer walls of the connector 10 which are in contact with the inner walls of the gable module 3 are covered with an adhesive, which ensures the reinforcement of the connection of the modules. Fig. 1, Fig. 2, Fig. 3 and Fig. 5 (a and b) show a post in which the surface of the side walls of the series modules 2 and the gable module 3 are flush with the surface of the walls of the main part 4 of the base module 1, due to the fact that the step 7 has a width equal to The wall thickness of the serial module 2 is determined by the wall thickness of the serial module 2. Drawings Fig. 7, Fig. 8 and Fig. 9 show a post in which the step 7 has a width greater than the wall thickness of the serial module 2. In the first embodiment of the utility model, the profile has a cross-section in the shape of a rectangle. In the second embodiment, the post has a cross-section in the shape of an octagon with two axes of symmetry. List of designations 1 - basic module 2 - serial module 3 - top module 4 - main part of the basic module - base of the basic module 6 - step 7 - step 8 - base module connector 9 - step - serial module connector .. Don't show this again PL PL PL PL PL PL PL PL PL

Claims (1)

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