RU223067U1 - Sealing profile for sealing technological construction joints - Google Patents

Abstract

The utility model relates to the field of construction for sealing expansion joints of concrete structures and can be used in the construction of underground and above-ground parking lots and bridge crossings. The technical result consists in increasing the reliability of sealing expansion joints in reinforced concrete slabs using a sealing profile of the proposed configuration, while maintaining the water tightness of expansion joints. The technical result is achieved by the fact that the sealing profile for sealing technological construction joints, in the form of a linear element, is made of elastic material and contains parallel surfaces that are connected to each other by flexible cross-section bridges. In this case, the body and jumpers are made of extruded polymer. In cross section, the body is made in the form of a rectangle with an aspect ratio W:H equal to 1.2:1. The jumpers elastically deform under compression and act as stiffening ribs, located parallel to each other along diagonals in two directions opposite to each other and mutually perpendicular to each other. Moreover, in cross section they form a configuration of five squares vertically oriented with two corners with side a , which is in a ratio of 1:4 with the side of the body rectangle W in a ratio of 1:4. In the cross section, four squares are evenly distributed along the edges of the rectangle of the profile body, and the fifth square is located in its center and is equipped with an elastic jumper along the vertical diagonal. The triangle formed by the sides of the two lower squares is made in the form of a cutout on the lower plane of the profile body.

Description

The utility model relates to the field of construction for sealing expansion joints of concrete structures and can be used in the construction of underground and above-ground parking lots and bridge crossings.

A sealing profile is known, including a hollow elastic chamber, characterized in that the chamber is made with a rigid base of rectangular cross-section protruding outward from it and a sealing plane parallel to it, the outer surface of which is ribbed and consists of three sections isolated from each other, one of which is located at the base , and the other two - symmetrically on both sides (RF Patent for invention No. 2303115, IPC: E06B 07/23, published July 20, 2007).

Known Expansion profile for concrete structures, containing two parts fixed in concrete on both sides of the expansion joint, and a central compressible expansion part located between them, designed to be located in the expansion joint, and the parts fixed in concrete are formed by two extending along each other side walls, which have two elastic ribs on their sides facing opposite directions, and the expansion part is formed by at least one elastically deformable bridge between the two side walls, characterized in that between the elastic ribs on both walls there is placed a swellable under the influence moisture material (RF patent for invention No. 2164989, IPC: E04B 01/68, published 04/10/2001).

Known profile sealing of seams connecting elements of monolithic concrete structures, made of elastic material in the form of a strip with a profile in cross section having a central section in the form of a hollow polygonal chamber and two end sections, each of which is connected by a strip section to the central section and has an anchor protrusion in in the form of a convex geometric figure, characterized in that one of the end sections has an additional anchor protrusion connected to the main anchor protrusion by an additional strip section, while the figure formed by the cross-sectional profile of the strip is asymmetrical relative to the central transverse axis of the hollow polygonal chamber, and the transverse plane , passing through this axis, divides the profile into unequal parts, where the length of the majority of the profile with an additional anchor protrusion is 1.5-2 times the length of the smaller part of the profile (RF Patent for PM No. 86964, IPC: E04B 01/68, published 20.09 .2009).

The closest technical solution to the device is a sealing profile for sealing technological construction joints, mainly expansion joints, made of elastic material with an asymmetrical cross-section, containing two plates located parallel to the longitudinal plane of symmetry, the mutually facing internal surfaces of which are interconnected by two flexible U-shaped cross-section with jumpers facing each other with the convex side, and on the opposite outer surface of each of the plates there are at least two T-shaped anchor protrusions in cross section, characterized in that one of the flexible U-shaped jumpers is mated and connected to each of its walls in its middle part with the side surface corresponding to the parallel plate with the formation of a cantilever end section located at an angle to the outer surface of the said plate (RF Patent for invention No. 2352730; MKI: E04B 01/68, published on April 20, 2000 .).

The technical result consists in increasing the reliability of sealing expansion joints in reinforced concrete slabs using a sealing profile of the proposed configuration, while maintaining the water tightness of expansion joints.

The technical result is achieved by the fact that the sealing profile for sealing technological construction joints, in the form of a linear element, is made of elastic material and contains parallel surfaces that are connected to each other by flexible cross-section bridges. In this case, the body and jumpers are made of extruded polymer. In cross section, the body is made in the form of a rectangle with an aspect ratio W:H equal to 1.2:1. The jumpers elastically deform under compression and act as stiffening ribs, located parallel to each other along diagonals in two directions opposite to each other and mutually perpendicular to each other. Moreover, in cross section they form a configuration of five squares vertically oriented with two corners with side a , which is in a ratio of 1:4 with the side of the body rectangle W in a ratio of 1:4. In the cross section, four squares are evenly distributed along the edges of the rectangle of the profile body, and the fifth square is located in its center and is equipped with an elastic jumper along the vertical diagonal. The triangle formed by the sides of the two lower squares is made in the form of a cutout on the lower plane of the profile body. The sealing profile for sealing technological construction joints is illustrated by drawings in Figs 1 and 2.

Fig. 1-Sealing profile for sealing technological construction joints (general drawing diagram).

Fig. 2 - Sealing profile for sealing technological construction joints (scheme for compensating for various types of stresses).

According to FIG. 1 sealing profile for sealing technological construction joints of the FlowLead-ShUP brand contains a body 1 and jumpers 3 made of extruded polymer. The body 1 has a rectangle in cross section with an aspect ratio W: H equal to 1.2: 1. Jumpers 3, acting as stiffeners and in cross section forming in a configuration five vertically oriented squares with two corners with side a , which is with side W in a ratio of 1:4, with four squares evenly distributed along the edges of the rectangular cross-section of the profile, and the fifth square is located in the center of the cross-section and is equipped with an elastic jumper along the vertical diagonal, while the triangle, which is the sides of the two lower squares, is made in the form cutout 2 on the bottom side of the profile body 1.

The sealing profile for sealing technological construction joints works as follows:

during installation work, the profile is compressed from the sides by squeezing the lower side edges towards the center, after which it is inserted into a pre-prepared seam of the concrete structure. The width of the seam should not exceed 2/3 of the width of the profile, the depth of the seam should be at least 1.5 times the height of the profile. At the same time, the execution of the seam does not require high precision and additional treatment with sealants and mastics, which makes it possible to carry out work on sealing seams in any weather conditions, at any time of the year.

A sealing profile for sealing technological construction joints is obtained by heating the raw material and extruding it through a special nozzle with a template for the cross-section of the product, then the resulting profile is cooled with water and rolled into spools, followed by packaging in paper boxes.

The sealing profile can be moved around the construction site on a wheeled trolley in coils or manually. Installation of the product can be done either manually or using special equipment. The cross-sectional configuration of the sealing profile allows the product to be tightly installed in the expansion joint, making it airtight, while the product can withstand various deformations of the concrete structure without violating the tightness and integrity of the seam.

The sealing profile offered as a utility model for sealing technological construction joints allows us to ensure reliable sealing of expansion joints in reinforced concrete slabs while maintaining their water tightness.

Claims (1)

A sealing profile for sealing technological construction seams, containing a body in the form of a linear element made of elastic material, having parallel surfaces that are interconnected by bridges that are flexible in cross section, characterized in that the body and jumpers are made of extruded polymer, while the body in cross section cross-section is made in the form of a rectangle with an aspect ratio W:H equal to 1.2:1, and the jumpers, elastically deformed under compression and acting as stiffeners, are located parallel to each other along diagonals in two directions opposite to each other and mutually perpendicular to each other forming in the cross section a configuration of five squares vertically oriented with two corners with side a , which is with the side of the rectangle of the body W in a ratio equal to 1:4, while in the cross section four squares are evenly distributed along the edges of the rectangle of the profile body, and the fifth square is located in its center and equipped with an elastic jumper along the vertical diagonal, while the triangle formed by the sides of the two lower squares forms a cutout on the lower plane of the profile body.