RU203692U1 - Pin base - Google Patents

Abstract

The utility model relates to the field of construction, in particular to the organization of the installation of supports for pillars, masts, columns of buildings and structures. This utility model is aimed at solving a technical problem - creating a simplified supporting structure with increased strength and bearing capacity, reducing the material consumption of the structure and increasing the manufacturability of its manufacture. The technical result is a pin base with an increased bearing capacity, which makes it possible to reduce material consumption and labor costs during its manufacture. The technical result is achieved due to the fact that the pin base consists of a platform equipped with rod elements located at an angle to the platform, in which, according to the utility model, the platform is made in the form of a box-shaped structure. The box-shaped structure has at least three corners in cross-section and is formed by a combination of upper and lower elements bent so that they can be connected, at least by welding. In this case, the upper element and the lower element of the box-shaped structure contain elliptical holes located on the same axis. The rod elements pass through coaxial elliptical holes at an angle to the normal to the soil surface and have a conical shape in the area adjacent to the box-shaped structure. The upper element of the box structure contains fasteners for mounting the payload on the pin base.

Description

The utility model relates to the field of construction, in particular to the organization of the installation of supports for pillars, masts, columns of buildings and structures.

Most often, pillars and columns are part of buildings and similar structures. However, depending on the size and / or purpose of the building or structure, providing reliable supports for the pillars and columns requires the use of a large amount of building materials, which entails significant labor costs. One approach is to place the lower ends of the pillars or columns in large enough cavities dug in the ground and fill the cavities with concrete or cement. Another approach is to fill large cavities dug in the ground with concrete or grout, insert bolts into the concrete or grout, and then bolt the base plates. These approaches are labor intensive and require significant financial costs. In addition, swelling and / or compression of concrete or cement composition may occur, which will require additional investment of time and money to properly fix the foundation. Currently, one approach is used, which is to construct the foundations in the form of screw piles. The disadvantage of this method is the complexity of positioning in the horizontal plane, the weakening of the bearing capacity of the soil when it is loosened by the screw part of the pile.

The closest technical solution to the proposed utility model is a base plate according to patent DE10209037175A1, which includes a flat web through which a plurality of tubes pass, and these pipes are located near the edges of the flat web, optionally offset from the edges of the flat web and are located at angles to the flat web, none of these angles is equal to 90 °, and the inner diameter of the pipes allows the passage of the support rods, anchored in the ground. The disadvantage of this design is the high consumption of materials and labor intensity of manufacture.

A technical problem is the creation of a simplified support structure with increased strength and bearing capacity, a decrease in the material consumption of the structure and an increase in the manufacturability of its manufacture.

The technical result is a pin base, which has an increased bearing capacity, which makes it possible to reduce the consumption of materials and labor costs in its manufacture.

The technical result is achieved due to the fact that the pin base consists of a platform equipped with rod elements located at an angle to the platform, in which, according to the useful, the platform is made in the form of a box-shaped structure.

The box-shaped structure has at least three corners in cross-section and is formed by a combination of upper and lower elements that are bent and connectable, at least by welding. In this case, the upper element and the lower element of the box-like structure contain elliptical holes located on the same axis.

The rod elements pass through coaxial elliptical holes at an angle to the normal to the soil surface, and have a conical shape in the area adjacent to the box-shaped structure.

The upper element of the box structure contains fasteners for mounting the payload on the pin base.

The claimed set of features ensures the achievement of the technical result due to the fact that the implementation of the supporting platform in the form of a box-shaped structure allows to reduce material costs and at the same time increase the bearing capacity of the entire pin base. The execution of coaxial holes, in which the rod elements are installed, allows the pin base to be securely fixed in the ground, which increases reliability and also contributes to an increase in the bearing capacity. The production of a box-like structure from two interconnected elements allows you to quickly make a base of the required shape in cross-section with the least labor costs.

Patent research did not reveal technical solutions characterized by the claimed set of features, therefore, it can be assumed that the specified utility model meets the "novelty" criterion.

In addition, the proposed utility model can be manufactured on an industrial scale using standard equipment and will find application in the installation of building structures, in particular, the installation of supports for poles, masts, columns of buildings and structures, that is, it is characterized by the criterion of "industrial applicability".

The essence of the proposed technical solution is illustrated by drawings, where:

in fig. 1 shows a general view of the pin base;

in fig. 2 shows a top view of the pin base;

in fig. 3 shows an example of the placement of the pin base in the ground;

in fig. 4 shows a pin base with a payload mounted thereon;

in fig. 5 shows a box structure with elliptical openings;

in fig. 6 shows the box structure, namely the upper and lower elements.

The pin base consists of a box-like structure 1, which acts as the main supporting element, and the box-like structure 1 can be made in the form of a triangle (Fig. 5, 6), a rectangle (Fig. 1-4), a pentagon, a hexagon or a polygon in cross-section for the ability to create specialized solutions. In the embodiment shown in FIG. 1-4 of the present invention, the box-like structure is formed by a combination of the upper element 2 and the lower element 3, bent in the form of a U-shaped profile. The connection of the upper element 2 and the lower element 3 of the box-shaped structure 1 can be carried out by welding, gluing, bolting or in another way, ensuring a reliable connection of the elements. The upper element 2 and the lower element 3 of the box-shaped structure 1 contain elliptical holes 4 located on the same axis. The rod elements 5 have a conical shape in the area conjugated with the box-shaped structure 1 and, when the pin base is installed on the ground 6, they pass through the coaxial elliptical holes 4 at an angle to the normal to the soil surface 6. The upper element 2 of the box-shaped structure 1 contains holes 7 or fasteners for installation payload 8 on the pin base.

The assembly of the utility model is carried out as follows. Prepare a box-shaped base 1, rod elements 5, fasteners, if necessary, install and fix bolts, fasteners in the upper element 2 of the box-shaped structure 1. Prepare the installation site, expose the box-like structure 1, which is the main supporting platform, in place and at the level. If necessary, remove excess soil or add additional soil to level the position of the pin base. The rod elements 5 are preliminarily driven into the ground. Pivot elements 5 are passed through the ellipse holes 4 of the box-like structure 1, aligned along one axis in the box-shaped structure. As a rule, the rod-shaped elements 5 are made of a round, shaped steel pipe. Check and, if necessary, correct the position of the pin base. The rod elements 5 are driven into the ground completely. In the process of driving the rod elements 5 into the ground, an impact tool with a specialized tip is used to expand the walls of each rod element. Thus, the rod elements 5 are fixed in the box-shaped structure 1. After driving in the rod elements 5, the pin base is ready for mounting the payload 8.

Claims (8)

1. A pin base, consisting of a platform provided with rod elements located at an angle to the platform, characterized in that the platform is made in the form of a box-like structure formed by a combination of at least an upper element and a lower element bent with the possibility of connection. 2. A pin base according to claim 1, characterized in that the box-like structure has at least three corners in cross-section. 3. A pin base according to claim 1, characterized in that the connection of the upper and lower elements of the box-shaped structure is carried out at least by welding. 4. A pin base according to claim 1, characterized in that the upper and lower elements of the box-like structure contain elliptical holes. 5. The pin base according to claim 4, characterized in that the elliptical holes of the upper and lower elements are located on the same axis in the box-shaped structure. 6. A pin base according to claim 1, characterized in that the rod elements pass through coaxial elliptical holes at an angle to the normal to the soil surface. 7. The pin base according to claim 1, characterized in that the rod elements have a conical shape in the area adjacent to the box-like structure. 8. The pin base according to claim 1, characterized in that the upper element of the box-shaped structure contains fasteners for mounting the payload.

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